Meet Inspiring Speakers and Experts at our 3000+ Global Events with over 600+ Conferences, 1200+ Symposiums and 1200+ Workshops on Medical, Pharma, Engineering, Science, Technology and Business.

Explore and learn more about Conference Series LLC Ltd : World’s leading Event Organizer

Conference Series LLC Ltd Conferences gaining more Readers and Visitors

Conference Series LLC Ltd Web Metrics at a Glance

  • 3000+ Global Events
  • 25 Million+ Visitors
  • 25000+ unique visitors per conference
  • 70000+ page views for every individual conference

Unique Opportunity! Online visibility to the Speakers and Experts

Renowned Speakers

Marek M. Kowalczuk

Marek M. Kowalczuk

University of Wolverhampton, UK UK

Hermann Wollnik

Hermann Wollnik

New Mexico State University, USA USA

Alexander A. Sysoev

Alexander A. Sysoev

National Research Nuclear University MEPh, Russia Russia

Miroslav Ryska

Miroslav Ryska

Quinta-Analytica, Czech Republic Republic of Macedonia

Kent Peterson

Kent Peterson

Fluid Imaging Technologies, USA USA

Peter J Baugh

Peter J Baugh

EFASIG, The BMSS on behalf of Markes International Ltd, UK UK

Shengxi Jin

Shengxi Jin

Labs-Mart Inc., Canada Canada

Luigi Silvestro

Luigi Silvestro

3S-Pharmacological Consultation & Research GmbH Germany Germany

LCMS 2018

Call for Abstract

Dear colleagues and friends

On behalf of the organizing committee of 9th International Conference on Mass Spectrometry and Chromatography and as keynote speakers, I invite you to our upcoming international conference in Auckland, New Zealand on November 08-09, 2018.  

This global congress incorporates a scientific program by the global expert to explore the future aspect for next generation.

I invite you to participate and send your abstracts and put them to the consideration of our prestigious international scientific committee. Deadline July 30, 2018 SUBMIT HERE

Main objectives:

  • Current and future explosion of this technique in Analytical Chemistry and Nuclear Physics.
  • Modern tools and systems in support of   Mass Spectroscopy and Chromatography related people.
  • Technologies and analytics to understand monitor and support Industrial development.

I await you in the beautiful city of Auckland, the major city of New Zealand, one of the most visited cities in the world.

Professor, Stockholm University, 

Keynote Speaker & Organizing Committee for International Conference on “ Mass Spectrometry and Chromatography” Conferenceseries llc LTD., UK   

About Conference

ConferenceSeries llc Ltd invites all the participants from all over the world to take part and attend 9th International Conference on on Mass Spectrometry and Chromatography on November 08-09, 2018 in Auckland, new Zealand which would replicate the plethora of LC-MS from highly eminent professionals and exhibitors.

LCMS 2018 is a best platform to meet and share the knowledge with eminency related to academy and towards the industrial knowledge to furnish with the most curiosity deals in aspects of Mass Spectrometry and Chromatography. LCMS 2018 conference covers all the fields related to Mass Spectrometry and Chromatography. There will be many workshops and technical sessions to limelight the depth of LCMS that would be enormously enriched with the prospects of broadening the current scenario of the Mass Spectrometric Principles and Chromatographic views . The experts can withstand an excellent opportunity to bestow their best in expertise through presentations and lectures on different topics.

The main objective of this conference is to enlighten the innovations and current trends of Mass Spectrometry and  Chromatography. This conference would bring together the personals who are interested in fields of mass spectrometry, chromatography and analytical chemistry to explore the ideas and replica concerned to relevant topics and generates solutions to decipher and deliver the huge shade of Mass Spectrometric and Chromatographic schemes of development.

ConferenceSeries Ltd organizes 1000+Conferences Every Year across USA, Europe & Asia with support from 1000 more scientific societies and Publishes 900+Open access Journals which contains over 60000 eminent personalities, reputed scientists as editorial board members.

Why Auckland New Zealand??

The capital city of New Zealand is Auckland New Zealand is one of the magnificent cities in the world. The official languages of New Zealand and English. It proudly proclaims itself to be 'Asia's World City' and remains a key gateway to China. Hong Kong is home of both the highest-ranked Asian university in the QS World University Rankings (New Zealand University at 23) and the number one university in the 2012 QS University Rankings: Asia (the New Zealand University of Science and Technology), New Zealand is truly a higher educational powerhouse. Here is the biggest society of mass spectroscopy;

In the 2018 edition of the QS Asia University Rankings, New Zealand claims four representatives among the 10 top universities in Asia alone, led by the New Zealand University of Science and Technology in third, while the University of New Zealand is ranked fifth. Many universities in Hong Kong already boast the kind of reputation needed to attract students and scholars from around the world. On top of this are the various attractions of life in New Zealand. Boasts a highly developed transportation network. It is very convenient to travel to and from New ZealandNew Zealand is a fusion of East and West. There is no better place to experience both eastern and western cultures, and experience traditional and modern life. New Zealand is the ideal springboard for trips to the rest of China as well to other parts of East Asia.


Who to attend?

·         Directors of analytical chemistry department in Universities

·         Research laboratories Scientist

·         Professor and Associate professor of analytical chemistry

·         Research scholars

·         Analytical instrument manufacturing company

·         Research and Development Department


Why to attend???

  •       To learn about key issues in the industry (and your area of interest in particular) as articulated            by practitioners.
  •       To meet people and organizations addressing these same key issues.
  •       To meet people with whom you’ve established a relationship on social media.
  •       To initiate relationships with others that you can continue by social media and/or meetings in             person.
  •       To learn about job, internship, project and other work-based possibilities.
  •       To learn about fellowship and grant opportunities relevant to your area(s) of interest.
  •       To gain insight into the experiences of others who face challenges like yours.
  •       To learn about publications and other resources relevant to your area(s) of interest.

Target Audience:

·         Industry        30%

·         Academia     60%

·         Others          10%


Conference Keywords

1. Liquid Chromatography is a different method of analytical chemistry which is mainly used to separate and identify each element in a mixture. Now a days highly used technique is HPLC (High Pressure Liquid Chromatography) which has been used for production of Pharmaceutical and biological products. Is has different phase like stationary phase that is the type of absorbent material used as the stationary phase is vital for efficient separation of components in mixture and mobile phase which is chosen for the best separation of components in an unknown mixture.

2. Gas liquid chromatography is an analytical machine that measures the content of various components in a sample. The principle of gas chromatography is to inject the solution into the instrument and enter gas stream which take the sample up to the separation tube or column where helium or nitrogen gas is used. The work of detector is to measure the quantity of the components that exit the column and compared with the known sample to check results.

3.   Mass Spectroscopy is a technique which is used for ionizes chemical compounds. This process is highly used in separation techniqueGas chromatography is used to separate different compounds. MS is highly common use in analytical laboratories that studied in physical although in chemical properties. MS generates different ions from the sample then separates them according to their mass-to-charge ratio. The MS instrument consists three major components like Ion Source, Analyzer, Detector System. This mass spectroscopy technique is basically studied the effect of ionizing energy on molecules.

4.  Ionization is a process by which atoms and molecules exchange their positive and negative charge to form an ion by changing the chemical composition also. Ionization is highly used in fundamental science mainly in Analytical chemistryMass spectroscopy. In chemistry ionization often occurs in a liquid solution. In general, it occurs whenever sufficiently energetic charged particles or rediant energy travel through gases, liquids or solids. It is used in  Ionizing radiation , Ionized water filterAlkaline water ionizer and in others.

5. Biomolecules are biological molecule, that are produced by cells organic molecules especially macromolecules like carbohydrates, proteins in living organisms. All living things like  bacteria, algae, plant and animals are made of similar macromolecules that are biomolecules. There are different types of biomolecules like small molecules include Lipids, fatty acid, Vitamins, Monomers etc. MS becoming an necessary field to analyze biomolecules. The desorption ionization based on the emission of pre-existing ions such as plasma desorption (PD), fast atom bombardment (FAB) or laser desorption (LD), allowed mass spectrometry for analyzing complex biomolecules. It includes Nucleic acid biomolecule, DNA biomolecules etc.

6.Genetic Disorders: it is caused because of abnormality in an individual's genome also caused by heredity.  The abnormality range can be from minor to major. It causes by new changes in DNA. This create Single-gene problem. This also cause multifactorial and  polygenic which cause heart disease or diabetes.

7. Combinatorial Chemistry includes large group of structural diverse compounds. This technique contain chemical synthetic method to prepare large number of compounds in a single process.  It is used to synthesis small molecules and peptides. The methods of combinational chemistry are used outside chemistry too. It includes in drug discovery, dynamic chemistry and screening impact factor also.

8. Agro-Chemistry is the part of Chemistry and Biochemistry that is important in agricultural production. The aim of this chemistry is to relate plant and animal growth. Its another aim is to increase the fertility of soil. The important branch of this agro-chemistry is Chemurgy which is concerned chiefly with agricultural product as raw materials.

9. Bioanalysis covers the quantitative measurement of drug and their metabolites, concentrations etc. It measures the small molecule. Bioanalysis technique includes liquid chromatographymass spectrometrycapillary electrophoresis–mass spectrometry, ultra-performance liquid chromatography etc. it is mainly focused on measuring small molecules of drugs. There are several international organizations are doing research on bioanalysis like European Bioanalysis Forum, Royal Netherlands Chemical Society.

10. Therapeutics is the response which is happen after treatment of any kind of therapy. It is the part of medicine concerned with the treatment of disease and the action of remedial agents.

11. Forensic Chemistry is the part of chemistry and it is a legal setting. This field involves the identification and quantitative analysis if scientific evidence. The forensic chemistry assists the identification of crime. The methods mainly used for forensic chemistry include HPLC, GCMS, Atomic absorption spectroscopy etc. Forensic toxicology is a part of Forensic chemistry which study on pharmacodynamics that what a substance does to a body. 

12. Food technology is a scientific research for preservation of food. It is very helpful for food supply and that change the world. Developments in food technology is a big contribution for the whole world. Different process is including for this developments like Freeze-Drying, High temperature short time processing, Process optimization, Decaffeination etc. The food processing industries are involved in processes such as primary, secondary, processing, preservation, quality management, packaging, labeling.

13. Electrospray Ionization is the process which is  used in mass spectroscopy to produce ion  in electrospray. High voltage to apply in liquid to create an aerosol. It is used to produce ions from macromolecules. Mass spectroscopy using ESI is called electrospray ionization mass spectroscopy. It is a soft ionization technique. ESI is used to study protein folding and to test presence of nanoclusters.

14. Atmospheric pressure chemical ionization is an ionization process which is used in mass spectroscopy and in HPLC. The main uses of APCI is thermal stable samples with low to medium molecular weight, medium and high polarity.

15. Hyphenation is a separation technique which refer to combination of two or more techniques to separate chemicals from solutions. The main thing related to Hyphenation is Mass spectrometryElectrochemical analysisHybrid techniques , etc.

16. Pharmaceutical Research is a relating to medicinal drugs and industries which discovers develops and produces drugs for uses. For making this it need variety of laws and regulation. Drug discoveryDrug developmentpharmaceutical drugs is the part of Pharmaceutical research. Each Pharmaceutical companies are doing their research on different drugs to create something new.

17. Biomedical Research is the application of engineering principles and concepts of medicine and healthcare. It is a field that develops methods, tools. It is related to medical biological science. It has a different part like Tissue EngineeringGenetic EngineeringPharmaceutical Engineering, Clinical Engineering. Clinical and Pre-clinical both research phase exists in Biomedical Research and is oriented towards a specific pharmaceutical purpose.

18. Post-translational modification is the enzymatic modification of proteins. This mainly happen in amino acid side chains. Some of them are consists of cleaving peptide bonds and some types are consequences of oxidative stress. PTM can be detected by different techniques like MS, Eastern blotting and Western blotting. It includes Post translational modification prediction, Post translational modification in eukaryotes etc.

19. Liquid–liquid extraction is a method to separate two different immiscible liquids based on their relative solubilities. LLE is possible in non-aqueous systems also as a system consisting of a molten metal in contact with molten salts. The solution which is to be extracted is called the feed, and the liquid with which feed is contacted is the solvent. In petroleum industry Extraction process is well used. Other application is in biochemicalpharmaceutical industries for antibiotics and protein recovery.

20. Chromatography and High Performance Liquid Chromatography (HPLC)Liquid chromatography-mass spectrometry analysis of small molecules from biofluids requires sensitive and robust assays. Because of the very complex nature of many biological samples, efficient sample preparation protocols to remove unwanted components and to selectively extract the compounds of interest are an essential part of almost every bioanalytical workflow. High-performance liquid chromatography (HPLC) is a separation technique that can be used for the analysis of organic molecules and ions. HPLC is based on mechanisms of adsorption, partition and ion exchange, depending on the type of stationary phase used. HPLC involves a solid stationary phase, normally packed inside a stainless-steel column, and a liquid mobile phase. Separation of the components of a solution results from the difference in the relative distribution ratios of the solutes between the two phases. HPLC can be used to assess the purity and/or determine the content of many pharmaceutical bioprocessing substances.




Track 1: Mass Spectrometry Significances

Mass spectrometry (MS) is feasibly regarded as the most important analytical spectroscopic tool of modern times. MS is a analytical technique used to measure the mass of ions that are electrically charged species, derived from atoms or molecules. The fundamental atomic and molecular processes can be understood well by this technique and helps to control processes in chemical and biological industries, in diagnosing diseases, discovery of new drugs, protecting the environment and explore mysteries of nature. This particular track would evolve the significances of analysis of biomolecules and certain ionization techniques. This would also focus on the data analysis through softwares engaged in MS.

  • Analysis of Biomolecules
  • Data Analysis through Software
  • Ionization Techniques

Track 2: Recent Innovations in MS Application

MS technique has a blended feature in industrial and academic fields for routine and research purposes. Mass spectrometry has become an indispensable technique with a myriad of different applications in biology, chemistry, and physics and in clinical science and even in space exploration observing air quality manning space mission and then to examine the composition of planetary atmospheres. Due to its accuracy in speed and stupendous sensitivity, mass spectrometry has also been regarded as a paramount in many phases of drug discovery. The technique finds its applications in testing water quality or potential food contamination. Therefore, MS is becoming a very prominent figure in the wings of clinical and other research endeavors such as biomedicalpetro productsspace researchastrochemistry and geological ground.          

  • Techniques in Petro Products
  • Methods for Space Research
  • Astrochemistry
  • Geological Research
  • Biomedical Research Analysis

Track 3: MS Opportunities in Life Sciences  

MS on the basis of proteomics has become an epitome in the cellular and molecular life sciences which has been enabled by the 'soft ionization' techniques of electrospray and matrix-assisted laser desorption-ionization that allows the ionization and vaporization of thermally labile biomolecules. The instrumentation directed for proteomics research have led to innovative instrumentation designs and biochemical strategies in the large-scale identification and quantification of proteins, as well as in the characterization of their complexes and post-translational modifications. These comprehensive proceedings can decipher the pathophysiology of development in diseases at a molecular level and to monitor the individual response of lifestyle intervention through pharmacology. This technique evolves indispensable implications in several areas of research such as structural proteomicsmetabolomics and lipidspost-translational modifications

  • Metabolomics and Lipids
  • Post-Translational Modifications
  • Structural Proteomics

Track 4: Recent Advances in LC-MS Principles and Applications 

The LC-MS technology is a protocol replicating the use of HPLC where the components in a mixture are first separated individually followed by the procedure of ionization and then separating the ions on the basis of their mass/charge ratio by feeding those into an electron multiplier tube detector which eventually identifies and quantifies each ion. The ion is the potent source in MS analysis aiding efficiency in generation of ions for analysis. LC-MS has now became a routine technique for providing a simple and robust interface applying to a wide range of biological molecules by using of tandem MS and stabling isotope that allows highly sensitive and accurate assays. The major significance of this technology projects sensitivity, specificity and precision analysis done at molecular level. Some of these applications may be biochemical screening for genetic disorders and preluding the ideas of combinational chemistry and agro-chemistry.

  • Principles of LC-MS
  • Biochemical Screening for Genetic Disorders
  • Combinatorial Chemistry
  • Agro-Chemistry

Track 5: Recent Trends and Development in Chromatography-MS 

The use of LCMS has become a paramount in two dimensional hyphenated technology to be useful in a wide assortment of analytical and bioanalytical techniques of nucleic acids, amino acids, peptides, proteins, carbohydrates, lipids, and etcetera and in categorizing the field of genomics, proteomics, metabolomics, lipidomics. Current trends are may be gripped of  mass analyzers, ionization protocols, fast LC–MS, LC–MALDI-MS, ion mobility spectrometry used in LC–MS, quantitation issues specific to MS and emerging mass spectrometric approaches which are complementary base in LC–MS are also discussed to focus on the recent innovations in LC–MS especially from the last decade and then to enlist  mass spectrometers offered currently by main manufacturers for LC–MS and MALDI-MS configurations together with the technical specifications. The forthcoming supplements in LC-MS could be emphasized on BioanalysisAspects in Clinical ChemistryQualitative and Quantitative Analysis of Compounds

  • Bioanalysis
  • Gas Chromatography
  • New Aspects in Clinical Chemistry
  • Qualitative and Quantitative Analysis of Compounds

Track 6: Major challenges of LC-MS in Pharmacology and Drug Discovery 

It is noticed that LC/MS system during the past 2 years has been used to quantify natural small molecules biologically Numerous developments have been made in LCMS analysis such as phospholipids and drugs with respect to pharmacokinetics and pharmacodynamics studies interfering with the metabolism of sphingolipids. Simultaneous measurements of drugs with the levels of natural metabolites are designed to modify. The processes incorporated in LC-MS method development for the pharmacological studies includes three anti-cancer drugs (i.e., methoxyamine, fludarabine, and 6-benzylthioinosine). Some others being specific are tetra-enzyme cocktail utilizing for release of DNA adducts All these methods are applied to study the drug effect and drug mechanism through other integrated prospects like therapeutics and detection & determination of impurities

  • Therapeutics
  • Detection & Determination of Impurities

Track 7: LC-MS in Forensics and Toxicology

Liquid chromatography-mass spectrometry (LC-MS) after a prolong development has led to the introduction of some major interfacing techniques in the field of analytical toxicology and forensics Chemistry. Some of these LC-MS interfaces are legible in handling fragile species. This review is intended to present LC-MS on the applications of  Forensics Chemistry and Toxicology by coupling with the techniques supplementing the evaluation of doping agents, drugs, forensic analysis, toxicity of compounds. Liquid chromatography-mass spectrometry (LC-MS) to forensic or clinical toxicology, or analytical methods  are fostering technical improvements and to a decrease in the price of instruments. Most recent applications in forensic or clinical toxicology are proposed for typical applications in human toxicology for the determination of morphine metabolites with the perspectives concerning technical improvements in ionisation interfaces/sources or mass spectrometers, as well as in sample preparation and liquid chromatography techniques like Doping and Screening.

  • Applications in Forensics Chemistry
  • Toxicology and its evaluation in LCMS
  • Doping and Screening

Track 8: Development in Environmental and Food Sciences 

The cruelest track of ecological problems is mutagenic pollution in the environment, and thereby the determination of mutagenic compounds in environmental samples is a crucial part. Mutagens found are polycyclic aromatic compounds, heterocyclic aromatic amine compounds, azo dyes, aldehydes and pesticides. Other advanced aspects for the current analysis in LC/MS are urinary metabolites of mutagens and DNA modification. The analysis made on the residues of pesticides in food has increasingly become an important task where the screening and controlling of the quality must be very strict to safeguard the consumers’ health. One of the potent goals of food quality assurance is testing food for the residues and contaminants. Among chemical hazards the contaminants found in food with pesticides has been characterized as a source of many serious diseases. Consumption of food containing pesticide residues may cause cancer, malformations, and damage to the endocrine, nervous, and immune system. Liquid chromatography-mass spectrometry methods (LC-MS) are widely recognized as an ideal, highly specific, and extremely sensitive technique for testing these contaminated food products. This track would encounter the analysis and subsidiaries supplementing an enormous breakthrough in eradicating the loss of bad health by the following- analysis of natural substancesauthenticity in food technologydetection of contaminants and prosperity of benign components.

  • Analysis of Natural Substances
  • Authenticity in food technology
  • Detection of Contaminants
  • Prosperity of Benign Components

Track 9: Opportunities and Advancements in Chromatography and MS

LC-MS systems usually comprise of devices for the introduction of samples that require an interface for connecting the devices where an ion source would ionize samples. Electrostatic lens used for the implication of the generated ions, mass analyzer unit which separates the ions based on their mass-charge ratio and a detector unit for detecting the separated ions. LC–MS is also has a room in proteomics where components of a complex blend must be detected and identified. This approach to proteomics generally involves protease digestion and denaturation followed by LC–MS techniques with peptide mass fingerprinting or LC–MS/MS (tandem MS) to derive sequence of individual peptides. LC–MS/MS is the paramount for proteomic analysis of complex samples where peptide masses may overlap even with a high-resolution mass spectrometer. This particular session would emphasize on Electrospray Ionization (ESI)Atmospheric Pressure Chemical Ionization (APCI), Quantitative Analysis and Hyphenation

  • Developments in Electrospray Ionization(ESI)
  • Atmospheric Pressure Chemical Ionization(APCI)
  • Trace Quantitative Analysis
  • Hyphenation

Track 10: Scopes and Advancements in Chromatography and MS

This hyphenated technique LC-MS plays a stupendous role in the environmental field for the determination of micro-pollutants. High performance liquid chromatography coupled to tandem mass spectrometry has implied that many environmental contaminants which are highly polar or nonvolatile or have a high molecular weight need to be analyzed or identified. In this track an overview is focused on the developments of liquid chromatography mass spectrometry applied to the analysis of the main classes of micro-pollutants in aqueous and solid environmental samples and other supplements in LC-MS system.  In addition to these, certain amendments are also carried forward to pharmacological activity taking into consideration of consumption deriving from their use in human and veterinary medicine. Some of these developments may impact through the following- advancements in clinical researchenhanced protocols in principles of LC-MSinformatics tools

  • Advancements in Clinical Research
  • Enhanced Protocols in Principles of LC-MS
  • Informatics Tools

Track 11: Advanced Nanotechnology Implications in LC-MS 

Nanoscale liquid chromatography coupled to tandem mass spectrometry has become an indispensable  tool in the field of proteomics now-a-days. The advantages are grabbed with the sensitivity of nanotechnology over conventional LC-MS  that allow the analysis of various  peptide mixtures in limited situations. This approach gives a strong cation-exchange, sample enrichment, reversed-phase chromatography and nanospray ion trap mass spectroscopy with data dependent tandem mass spectrometry spectra acquisition. Nanocolumn  liquid chromatography and largely synonymous capillary liquid chromatography (capillary LC) are the most recent results of this process where miniaturization of column dimensions and sorbent particle size play crucial role along with the advances in mass spectrometry that has really brought a breakthrough. Configuration of Nano LC-electrospray ionization mass spectrometry (LC-ESI-MS) has become a essential tool in bioanalytical chemistry that basically indulges in proteomics. This particular session includes the brief account on pharmaceutical and biomedical researchNano-proteomic analysis and Nano-proteomic analysis.

  • Pharmaceutical and Biomedical Research
  • Nano-Proteomic Analysis
  • Amendments of Nanomaterials in LC-MS 

Track 12: Applications of Secondary Ion Mass Spectrometry (SIMS) in Materials Science

Secondary Ion Mass Spectrometry (SIMS) is a mature surface analysis technique with a broad range of applications in Materials Science. In this article the SIMS process is described, the fundamental SIMS equations are derived, and the main terminology is explained. The issue of quantification is addressed. The various modes of SIMS analysis including static SIMS, imaging , depth profiling SIMS and three-dimensional (3D) SIMS are discussed as are specialized analysis strategies such as the imaging of shallow and cross-sections and reverse side analysis

  • Semiconductors
  • Glass and stainless steel
  • Solid oxide fuel cell components
  • Aerospace alloys and biomaterials.

Related Conferences: 


Related Societies: 

Market Analysis

The indispensable use of liquid chromatography along with high-resolution mass spectroscopy has flourished spectacularly over the last two decades in identifying contaminants. Developing a new instrumentation technique is the key reason of this tremendous advancement in the global mass spectroscopy and Chromatography market. Due to advantages such as sample pre-treatment and the capacity to determine polar or thermally stabile compounds, chromatography techniques have replaced gas chromatography. Chromatography hypenated mass spectroscopy has appeared as a valuable tool for the determination of micro pollutants in an environmental field.  While studying the Mass Spectroscopy and chromatographymarket across key geographies, the analysts of Persistence Market Research have observed that North America – followed by Europe – is expected to be the largest market for liquid chromatography-mass spectroscopy, owing to a rise in the number of contract research organizations, while the Asia Pacific region is expected to show continuous growth due to an increasing application of mass spectroscopy and chromatography systems in clinical testing.


In a recent publication titled Mass Spectroscopy and ChromatographyMarket: Global Industry Analysis and Forecast, 2016–2024,” the analysts of Persistence Market Research have studied the overall performance of the global mass spectroscopy and chromatography market and have observed that the market is likely to show significant growth owing to a rising demand for mass spectroscopy and Chromatography systems across various applications. The technique is much favored by scientists owing to lower levels of detection with shorter turnaround times. The key market player strategies include focusing on strengthening the product portfolio through continuous product launch and enhancing the training support. The analysts have observed that in the last few years, leading manufacturers of liquid chromatography-mass spectroscopy systems are focusing on innovations in analytical instruments by spending more on research and development.

Market Segmentation

By Technology

·         Triple Quadrupole

·         Time of Flight

·         Quadrupole - Time of Flight

·         Others

By Application

·         Drug Discovery and Development

·         Clinical Testing

·         Environmental Testing

·         Forensic Testing

·         Others

By End User

·         Academic Research Institutions

·         Contract Research Organizations

·         Biopharmaceutical Companies

·         Hospitals

·         Diagnostic Centers

·         Pathology Laboratories

·         Forensic Laboratories

By Region

·         North America

·         Latin America

·         Europe

·         Asia Pacific

·         Middle East & Africa

Report Structure

This report on the global liquid chromatography-mass spectroscopy market provides key metrics pertaining to the market such as market size and revenue forecast, Y-o-Y growth and absolute opportunity. The analysts have taken a 360o view of the market and have also highlighted the various micro-economic factors, supply and demand side drivers, restraints, opportunities and key trends likely to impact the global liquid chromatography-mass spectroscopy market. Another section of the report consists of market definition and taxonomy. At the end of the report, Persistence Market Research has provided key strategic recommendations for both existing and new players in the global liquid chromatography-mass spectroscopy market to emerge sustainably profitable.


Research Methodology

The forecast presented in report assesses total revenue of the global mass spectroscopy and chromatography market. While developing the market forecast, the starting point involves sizing the current market, which forms the basis for forecasting how the market is anticipated to take shape in the near future. The analysts have triangulated the outcome on the basis of analysis based on supply and demand sides. The report also takes into consideration year-on-year growth to understand the predictability of the market and to identify the right opportunities across the global mass spectroscopy and chromatography market. As previously highlighted, the global mass spectroscopy and chromatographymarket is split into various categories. All these segments have been analyzed in terms of BPS to understand the individual segment’s relative contribution to market growth. This detailed level of information is important for the identification of various key trends in the global liquid chromatography-mass spectroscopy market.

Indicators such as R&D expenditure, research funding from government and non-profit organizations etc. have been considered to arrive at the indicated market numbers. Yearly change in inflation rate has not been factored in while forecasting market numbers. Bottom-up approach has been used to assess market numbers for each product category, while top-down approach has been used to counter-validate the reached numbers. Market splits have been deduced from surveys and primary research.           

Company Profiles

  • Danaher Corporation
  • Agilent Technologies
  • Waters Corporation
  • Shimadzu Corporation
  • Bruker Corporation
  • Thermo Fisher Scientific Inc.
  • PerkinElmer Inc.
  • JEOL Ltd.
  • Others


By application, the environmental testing segment is expected to create an absolute $ opportunity of more than US$ 10 Mn in 2017 over 2016. By the end of 2024, the environmental testing application segment is projected to cross more than US$ 290 Mn, expanding at a CAGR of 8.7% over the forecast period. The environmental testing segment accounted for a market share of more than 11% in 2016 and is projected to account for a little more than 13% market value share by 2024 end. This represents an increase of 71 basis points during the forecast period.

Environmental testing segment is projected to register a high CAGR in the North America Mass Spectrometry and Chromatography market during the assessment period 

In the Asia Pacific mass spectrometry and chromatography market, the environmental testing segment by application is likely to record a CAGR of 7.6% during the forecast period. In terms of revenue, the environmental testing segment was one of the attractive segments by application in the Asia Pacific regional market in 2015, and the trend is projected to grow throughout the forecast period. In the MEA liquid chromatography-mass spectrometry market, the environmental testing application segment was valued at a little more than US$ 4 Mn in 2016 and is expected to reach approximately US$ 7 Mn by 2024. The environmental testing segment is expected to dominate the North America liquid chromatography-mass spectrometry market by reaching a market value of more than US$ 130 Mn by the end of the forecast period, expanding at an attractive CAGR of 10.2%. The environmental testing segment is likely to be a lucrative market segment by application in the Latin America liquid chromatography-mass spectrometry market. 

Increasing air and water pollution is the primary reason fueling revenue growth of the environmental segment during the period of assessment

There are a few factors that are expected to fuel the growth of the environmental testing segment in the global mass spectrometry and chromatography market such as the sustainable transformation of environmental policies; increasing number of energy and construction related projects; and the main factor being a rising awareness among the global population regarding the ill effects of environmental pollution. There has been an increasing growth of environmental testing in India owing to the government’s initiatives and also due to the rising demand for the development of waste infrastructure.

Industrial boom and rapidly increasing air and water pollution levels are primarily responsible for the growth of the environmental testing application segment in the global liquid chromatography-mass spectrometry market. This trend has been observed particularly after a rising number of automobiles that run on non-renewable sources and thus create enormous levels of air pollution. In a similar manner, due to increasing industrial activities, water bodies across the world have become polluted, which is invariably impacting the environmental testing application segment of the global mass spectrometry and chromatography market.

The government in the U.S. has set stringent policies and has also appointed regulating bodies to deal with the growing problems of air and water pollution. For instance, various amendments have been made in the safe drinking water act and the clean air act. These measures are likely to fuel the growth of the environmental testing application segment.

Mass Spectroscopy and Chromatography Market to Reach US$ 2.2 Bn by 2024 - Persistence Market Research

Analytical studies of complex environmental & biological samples demand advanced techniques that help them accomplish multiple analysis synergistically. Mass spectroscopy and chromatography is one such efficient technique that serves the purpose of both - separating the sample mixtures with multiple components and providing structural identity to these individual components. The demand for mass spectroscopy and chromatography (LC-MS) technique is expected to surge due to rising need for advanced analytical measures in the field of biotechnology, food processing, cosmetic & agrochemical production, pharmaceuticals, and environmental monitoring. A latest study published by Persistence Market Research projects that towards the end of 2024, the global market for Mass spectroscopy and chromatography will be valued at US$ 2,213.4 Million.

The report, titled "Global Market Study on Mass Spectroscopy and  Chromatography: Clinical Testing Segment Expected to be the Second Most Lucrative Segment by Application During 2016-2024," projects that the value of global mass spectroscopy and chromatographymarket, which is currently estimated at just over US$ 1,200 Million, is likely to get doubled by the end of 2024. During this forecast period, the market will soar at an impressive CAGR of 7.9%. Key findings in the report also project that North America and Europe will be leading regions, procuring more than half of global revenues. Towards the end of 2024, North America's Mass spectroscopy and chromatography market will have soared at 8.4% CAGR, while Europe will procure US$ 671.2 Mn in revenues. On the other hand, the mass spectroscopy and chromatography market in Asia-Pacific will record fastest revenue growth at 8.6% CAGR.

Factors Promoting the Adoption of LC-MS Technique

The report also reveals the impact of triple-quadrupole mass spectroscopy and chromatography on clinical analysis of samples. The demand for triple-quadrupole LC-MS is increasing in clinical analysis, owing to largely improved ionization source and front end ion optics of LC-MS system. According to the report, more than 50% of the global LC-MS market revenues will be accounted by triple-quadrupole (QqQ) technology, throughout the forecast period.

Furthermore, leading players in the global chromatography-mass spectroscopy market such as Thermo Fisher Scientific, Inc. are intensifying their spending on R&D of analytical instruments, which is favoring the market's growth at considerable extent. Other leading participants in global market for LC-MS technique include Danaher Corporation, PerkinElmer Inc., JEOL Ltd., Bruker Corporation, Agilent Technologies, Waters Corporation, and Shimadzu Corporation.

Apropos the report findings, demand for liquid chromatography-mass spectroscopy technique will remain higher in clinical testing and environmental testing, revenues from which are anticipated to soar at 8% and 8.7% CAGRs respectively. Drug discovery and development, on the other hand, will be observed as the largest application of liquid chromatography-mass spectroscopy, procuring over one-third share of global revenues towards the end of 2024. The report identifies academic research institutions and contract research organizations as key end-users of liquid chromatography-mass spectroscopy. The use of LC-MS technique in biopharmaceutical companies, however, will record fastest revenue growth at 9.9% CAGR.

Persistence Market Research Overview

Persistence Market Research (PMR) is a third-platform research firm. Our research model is a unique collaboration of data analytics and market research methodology to help businesses achieve optimal performance.

To support companies in overcoming complex business challenges, we follow a multi-disciplinary approach. At PMR, we unite various data streams from multi-dimensional sources. By deploying real-time data collection, big data, and customer experience analytics, we deliver business intelligence for organizations of all sizes.

New Research on Global Mass Spectrometer-Chromatography(LC-MS) Market in 2017 added by Market Research Report Store provides the current market competition analysis by top manufacturers, with production, price, revenue (value) and market share for each manufacturer.


In this report, the global Mass Spectrometer-Chromatography(LC-MS) market is valued at USD 5.5 Billion in 2016 and is expected to reach USD 10.5 Billion by the end of 2025, growing at a CAGR of 7.7% from 2017 to 2025.

Geographically, this report is segmented into several key Regions, with production, consumption, revenue (million USD), market share and growth rate of Liquid Chromatography-Mass Spectrometer (LC-MS) in these regions, from 2012 to 2022 (forecast), covering United States, Europe, China, Japan, South Korea, Taiwan

On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into

Ø  LC-MS System

Ø  LC-MS Software

Ø  LC-MS Accessories


On the basis on the end users/applications, this report focuses on the status and outlook for major applications/end users, consumption (sales), market share and growth rate of Liquid Chromatography-Mass Spectrometer (LC-MS) for each application, including

Ø  Biochemistry

Ø  Food Analysis

Ø  Medical Research

Ø  Environmental Analysis

Ø  Inorganic Analysis

Global Mass Spectrometry- Chromatography Market 2017 – Bruker, Agilent Technologies

Global Mass Spectrometry and Chromatography– Market 2017 Research Report offers a complete and in-depth analysis of the growth rate of the Liquid Chromatography–Mass Spectrometry industry.

In the first section, Liquid Chromatography–Mass Spectrometry Market report presents the overview of Liquid Chromatography–Mass Spectrometry industry which includes definitions, classifications, applications and Liquid Chromatography–Mass Spectrometry industry chain structure. Global Liquid Chromatography–Mass Spectrometry Market further includes Liquid Chromatography–Mass Spectrometry development history, competitive analysis of Liquid Chromatography–Mass Spectrometry industry.

Top leading Manufacturers Analysis of Liquid Chromatography–Mass Spectrometry:-

·         Hitachi

·         Shimadzu

·         SCIEX

·         Bruker

·         Waters

·         Agilent Technologies

·         Gilson

·         Perkin Elmer

·         Agela Technologies

·         Thomas Scientific

·         Jiangsu Skyray Instrument

Analysis of Application Segment of Mass Spectrometry and Chromatography Market:

·         Protein Characterization

·         Proteomics

·         Targeted Peptide Quantification

·         Lipidomics

·         Metabolomics

·         Small Molecule Drug Research

In addition to this, Mass Spectrometry and Chromatography Market report provides the information on development plans and strategies followed by various Liquid Chromatography–Mass Spectrometry industries, manufacturing techniques and price structures. The Liquid Chromatography–Mass Spectrometry Industry report also covers import/export details, supply chain relationship, utilization ratio along with cost, Liquid Chromatography–Mass Spectrometry Market revenues according to regions (South East Asia, India, China, Japan, Europe, USA) and other regions can be added in a convenient manner.

In next section, the Liquid Chromatography–Mass Spectrometry report covers leading industry players in Liquid Chromatography–Mass Spectrometry market discussing company profile data, product information, product blueprint, price, market share and contact details. Global Liquid Chromatography–Mass Spectrometry Market report also covers upstream raw materials, equipment and downstream consumers’ scrutiny.

Lastly, the Liquid Chromatography–Mass Spectrometry report offers complete in-depth analysis of the parent market, key strategies followed by leading members, upcoming segments, former, current and forecast market analysis in terms of volume and value along with entire research conclusions.

The Report serves as a holistic guide for the industry players and other individuals who are interested in studying the Liquid Chromatography–Mass Spectrometry market.


Clinical Mass Spectrometry: Innovative Solution for Diverse Medical Applications

Clinical mass spectrometry serves as a quantitative and qualitative analytical tool for assessment of complex mixtures in all the phases of drug development, including identification of the lead compound and their conformational details. Clinical laboratories use automation for the management of large number of samples through, either total automation systems or high level analyzer automation that are offered by clinical mass spectrometers such as Matrix Assisted Laser Desorption/Ionization (MALDI-TOF). These automated platforms assist effective processing of increasingly large workloads. Thus, clinical laboratories are among the largest end users of this technique. Moreover, the advancement in technology over the recent past, has enabled the ease of measuring and distinguishing separate contributions of molecules such as thyroid hormones and 25-hydroxyl vitamins D2 and D3. Application of translational research in the field of mass spectrometry has resulted in the discovery of blood-based biomarkers, endogenous metabolites, tumor markers, and new disease biomarkers. These advancements are expected to fuel adoption of clinical mass spectrometry devices.

Clinical diagnostic mass spectrometers have the capacity to analyze a limited range of samples such as biomarkers, proteins or drug molecules at once, even in cases of low concentrations thus, making them a valuable tool for diagnostic medical laboratories. Furthermore, it allows researchers to determine pharmacokinetic profiles of drugs that are administered in microdoses. The technology shift from traditional systems to high-resolution technologies such as the Quadrupole-Time of Flight (Q-TOF) mass spectrometry is expected to grow rapidly due to its benefits of accuracy, improved resolution, and sensitivity for clinical diagnostic applications.

The global clinical mass spectrometry market is estimated to be valued at US$ 4,982.5 million in 2017 and is expected to witness a CAGR of 7.3% over the forecast period (2017 – 2025).

Global Clinical Mass Spectrometry Market Share, By Product Type (%)

Increasing demand for automation in diagnostic techniques to drive growth of the clinical mass spectrometry market

Mass spectrometry enables various diagnostic analyses and study of functional genomics, metabolomics, and proteomics that facilitate development of a cost-effective analytic platform for analysis of samples. The automated laboratory systems provide several high-end functionalities such as MassEXTEND primer extension and nano liter dispensing of samples on to the spectroCHIPS, and data analysis using pre-loaded workstations that make the task of the clinicians and testing personnel easy and less tedious.  Ease of management, quick results, and less complex functionality of these facilities are associated with low costs. Apart from cost- effectiveness, improved quality assays, simplicity, automation, and data reliability, increased sensitivity, reduced cross-reactivity & non-specific binding, and significantly low downtime are advantages offered by mass spectrometers over conventional immunoassays. Moreover, major capital investments associated with the set up and maintenance of these devices poses as a major restraint for the global market growth. Mass spectrometers are largely unaffordable for small diagnostic clinics and laboratories, especially in emerging economies. Moreover, these mass spectrometry methods are labor intensive and require technically skilled professionals. The dearth of these skillful operators is also a constraint for the global clinical mass spectrometry market growth.

Technological advancements leading to new product launch is a prominent factor fueling growth of the clinical mass spectrometry market

Advancements in technology includes miniaturization of mass spectrometry instruments  and increasing automation of the entire spectrometric unit to reduce human efforts and improve efficiency of the instruments. The fully automated analyzer launched by Thermo Fisher in June 2017, is a step closer to achieve entirely automated systems in the mass spectrometry market that can be customized easily to be compatible with the laboratory information systems.

North America held the maximum share of clinical mass spectrometry market in 2016, owing to the presence of major key players and strategic collaborations. The second largest market share is provided by Europe. Under the Federation of analytical Chemistry and Spectrometry Societies, American Society for Mass Spectrometry was formed in 1969, with over 7,500 scientists working together to make advancements in the clinical applications of mass spectrometry and allied topics in academic, industrial, and governmental laboratories. This in turn, creates a strong network of research base in North America thus, contributing to swift growth of the clinical mass spectrometry market. Asia Pacific is also expected to grow at a substantial rate due to increased investments in R&D by various players and government bodies along with the introduction of new in-house manufacturing and R&D facilities.

Clinical mass spectrometry plays a vital role in the drug discovery pipeline for the development of personalized medicines. It is further used for live imaging of biological tissue samples for detection of biomarkers. Cost reduction and improved assay quality has driven the adoption of mass spectrometry. The American Association for Clinical Chemistry (AACC), states that the greater specificity of liquid chromatography–mass spectrometry-(LC MS) enables the measuring of testosterone for patients with low endogenous concentrations. This technique is more reliable than traditional immunoassays, especially for women and children. This led to the early adoption of the most recent generation of instruments using an established technology in the laboratories.  

Market Dynamics

Clinical mass spectrometry offers significant advantages related to clinical research and forensic toxicology applications in terms of speed, robustness, simplicity, and selectivity of small molecules. Clinical mass spectrometry manufacturers are continuously collaborating with clinical diagnostic companies to retain the market share for new products that can quantify low trace levels of disease biomarkers. In Cambridge (U.S.) Thermo Fisher is advancing proteomics and clinical translational research through collaborations at the Biomarkers Research Initiatives in mass spectrometry center. Furthermore, increasing demand for clinical mass spectrometry to perform diagnostic assays in the field of endocrinology, toxicology, leukemia, and biochemical genetics, which helps overcome limitations of conventional immunoassays is also expected to create a favorable environment for growth of the market over the forecast period.

Market Taxonomy

This report segments the global clinical mass spectrometry market on the basis of product type, application, and end user. On the basis of product type, the market is segmented into gas chromatography–mass spectrometry-(GC MS) instrument, liquid chromatography–mass spectrometry-(LC MS) instrument, maldi TOF mass spectrometer, capillary electrophoresis–mass spectrometry, and ion mobility spectrometry-mass spectrometry. Applications of clinical mass spectrometry include clinical testing, proteomics, and drug discovery. On the basis of end user, the clinical mass spectrometry market is segmented into research laboratories, diagnostic laboratories, and hospitals.


Key features of LC-MS:

  • This report provides in-depth analysis of clinical mass spectrometry and provides market size (US$ Million) and cumulative annual growth rate (CAGR %) for the forecast period (2017 – 2025), considering 2016 as the base year.
  • It elucidates potential revenue opportunities across different segments and explains attractive investment proposition matrix for this market
  • This study also provides key insights about market drivers, restraints, opportunities, new product launch or approval, regional outlook, and competitive strategy adopted by the leading players
  • It profiles leading players in the global clinical mass spectrometry market on the basis of the following parameters – company overview, financial performance, product portfolio, geographical presence, distribution strategies, key developments and strategies, and future plans
  • Key companies covered as part of this study include Agilent Technologies , Waters, Shimadzu Corporation, Danaher, PerkinElmer Inc., Thermo Fisher Scientific Inc., Bruker, Mass Spectrometry Instruments (MSI), and Kore technology
  • Insights from this report would allow marketers and the management authorities of the companies to make informed decisions regarding their future type up-gradation, market expansion, and marketing tactics
  • The global clinical mass spectrometry market report caters to various stakeholders in this industry, including investors, researchers, clinical mass spectrometry manufacturers, distributors, new entrants, and financial analysts.
  • Stakeholders would have ease in decision making through the various strategy matrices used in analyzing the clinical mass spectrometry market.

Detailed Segmentation:

  • Global Clinical Mass Spectrometry Market, By Product Type:
    • Gas chromatography–mass spectrometry-(GC MS) instrument
    • Liquid chromatography–mass spectrometry-(LC MS) instrument
    • Maldi TOF mass spectrometer
    • Capillary electrophoresis–mass spectrometry
    • Ion mobility spectrometry-mass spectrometry
  • Global Clinical Mass Spectrometry Market, By Application:
    • Clinical Testing
    • Proteomics
    • Drug Discovery
  • Global Clinical Mass Spectrometry Market, By End User:
  • Research Laboratories
  • Diagnostic Laboratories
  • Hospitals
  • North America
    • By Country:
      • U.S.
      • Canada
    • By Product Type:
    • Gas chromatography–mass spectrometry-(GC MS) instrument
    • Liquid chromatography–mass spectrometry-(LC MS) instrument
    • Maldi TOF mass spectrometer
    • Capillary electrophoresis–mass spectrometry
    • Ion mobility spectrometry-mass spectrometry
    • Clinical Testing
    • Proteomics
    • Drug Discovery
    • Research Laboratories
    • Diagnostic Laboratories
    • Hospitals
    • By Application:
    • By End User:
  • Europe
  • By Country:
    • U.K.
    • Germany
    • Italy
    • Spain
    • France
    • Russia
    • Rest of Europe
  • By Product Type:
  • Gas chromatography–mass spectrometry-(GC MS) instrument
  • Liquid chromatography–mass spectrometry-(LC MS) instrument
  • Maldi TOF mass spectrometer
  • Capillary electrophoresis–mass spectrometry
  • Ion mobility spectrometry-mass spectrometry
  • Clinical Testing
  • Proteomics
  • Drug Discovery
  • Research Laboratories
  • Diagnostic Laboratories
  • Hospitals
  • By Application:
  • By End User:
  • By Country:
    • China
    • India
    • Japan
    • ASEAN
    • Australia
    • South Korea
    • Rest of Asia Pacific
  • By Product Type:
  • Gas chromatography–mass spectrometry-(GC MS) instrument
  • Liquid chromatography–mass spectrometry-(LC MS) instrument
  • Maldi TOF mass spectrometer
  • Capillary electrophoresis–mass spectrometry
  • Ion mobility spectrometry-mass spectrometry
  • Clinical Testing
  • Proteomics
  • Drug Discovery
  • Research Laboratories
  • Diagnostic Laboratories
  • Hospitals
  • By Application:
  • By End User:
  • By Country:
    • Brazil
    • Mexico
    • Rest of Latin America
  • By Product Type:
  • Gas chromatography–mass spectrometry-(GC MS) instrument
  • Liquid chromatography–mass spectrometry-(LC MS) instrument
  • Maldi TOF mass spectrometer
  • Capillary electrophoresis–mass spectrometry
  • Ion mobility spectrometry-mass spectrometry
  • Clinical Testing
  • Proteomics
  • Drug Discovery
  • Research Laboratories
  • Diagnostic Laboratories
  • Hospitals
  • By Application:
  • By End User:
  • By Country:
    • GCC
    • Israel
    • Rest of Middle East
  • By Product Type:
  • Gas chromatography–mass spectrometry-(GC MS) instrument
  • Liquid chromatography–mass spectrometry-(LC MS) instrument
  • Maldi TOF mass spectrometer
  • Capillary electrophoresis–mass spectrometry
  • Ion mobility spectrometry-mass spectrometry
  • Clinical Testing
  • Proteomics
  • Drug Discovery
  • Research Laboratories
  • Diagnostic Laboratories
  • Hospitals
  • By Application:
  • By End User:
  • By Country:
    • North Africa
    • Central Africa
    • South Africa
  • By Product Type:
  • Gas chromatography–mass spectrometry-(GC MS) instrument
  • Liquid chromatography–mass spectrometry-(LC MS) instrument
  • Maldi TOF mass spectrometer
  • Capillary electrophoresis–mass spectrometry
  • Ion mobility spectrometry-mass spectrometry
  • Clinical Testing
  • Proteomics
  • Drug Discovery
  • Research Laboratories
  • Diagnostic Laboratories
  • Hospitals
  • By Application:
  • By End User:
  • Asia Pacific
  • Latin America
  • Middle East
  • Africa
  • Thermo Fisher Scientific Inc.
    • Company Overview
    • Product Portfolio
    • Financial Performance
    • Key Strategies
    • Recent Developments
    • Future Plans
  • Danaher
  • Agilent Technologies
  • Waters
  • Shimadzu Corporation
  • PerkinElmer Inc.
  • Bruker
  • Kore technology
  • Bergman Messgerate Entwicklung KG
  • Mass Spectrometry Instruments (MSI)
  • RGB Photonics
  • ABLE Biosciences


Coherent Market Insights follows a comprehensive research methodology focused on providing the most precise market analysis. The company leverages a data triangulation model which helps company to gauge the market dynamics and provide accurate estimates. Key components of the research methodologies followed for all our market reports include:

  • Primary Research (Trade Surveys and Experts Interviews)
  • Desk Research
  • Proprietor Data Analytics Model

In addition to this, Coherent Market Insights has access to a wide range of the regional and global reputed paid data bases, which helps the company to figure out the regional and global market trends and dynamics. The company analyses the industry from the 360 Degree Perspective i.e. from the Supply Side and Demand Side which enables us to provide granular details of the entire ecosystem for each study. Finally, a Top-Down approach and Bottom-Up approach is followed to arrive at ultimate research findings.

Coherent Market Insights desk research is based on a principle set of research techniques:

  • National level desk research: It Includes research analysis of regional players, regional regulatory bodies, regional trade associations, and regional organization.
  • Multinational level desk research: The research team keeps a track of multinational players, global regulatory bodies, global trade associations, and global organization.

Coherent Market Insights has a large amount of in-house repository of industry database. This is leveraged as a burner for initiating a new research study. Key secondary sources include:

  • Governmental bodies, National and international social welfare institutions, and organizations creating economic policies among others.
  • Trade association, National and international media and trade press.
  • Company Annual reports, SEC filings, Corporate Presentations, press release, news, and specification sheet of manufacturers, system integrators, brick and mortar - distributors and retailers, and third party online commerce players.
  • Scientific journals, and other technical magazines and whitepapers.


The raw data is obtained through the secondary findings, in house repositories, and trade surveys. It is then filtered to ensure that the relevant information including industry dynamics, trends, and outlook is retained for further research process.


Holistic approach is used to ensure that the granular and uncommon parameters are taken into consideration to ensure accurate results. The information from the paid databases are further combined to the raw data in order to standardize it.


We arrive at our final research findings through simulation models. Coherent Data Analytics Model is a statistical tool that helps company to forecast market estimates. Few of the parameters considered as a part of the statistical model include:

  • Micro-economic indicators
  • Macro-economic indicators
  • Environmental indicators
  • Socio-political indicators
  • Technology indicators


Once the findings are derived from the statistical model, large volume of data is process to confirm accurate research results. Data analytics and processing tools are adopted to process large chunk of collected informative data. In case, a client customizes the study during the process, the research finding till then is benchmarked, and the process for new research requirement is initiated again.



This is the most crucial stage of the research process. Primary Interviews are conducted to validate the data and analysis. This helps in achieving the following purposes:

  • It provides first-hand information on the market dynamics, outlook, and growth parameters.
  • Industry experts validate the estimates which helps the company to cement the on-going research study.
  • Primary research includes online surveys, face-to face interviews, and telephonic interviews.

The primary research is conducted with the ecosystem players including, but not limited to:

  • Raw Material Suppliers
  • Manufacturers
  • System Integrators
  • Distributors
  • End-users

Trends and Forecast, 2024- Hexa Research

Liquid chromatography is a fundamental separation technique in the life sciences and related fields of chemistry. Unlike gas chromatography, which is unsuitable for nonvolatile and thermally fragile molecules, liquid chromatography can safely separate a very wide range of organic compounds, from small-molecule drug metabolites to peptides and proteins. LCMS stands for Liquid Chromatography/Mass Spectrometry. It refers to the combination of liquid chromatographic separation with mass spectrometric detection.

Liquid Chromatography Mass Spectrometry (LC/MS) is an analytical chemistry laboratory technique for identification, quantitation and mass analysis of materials. This technique consents for the structural interpretation of unknown molecules through fragmentation. Similar to HPLC, Liquid Chromatography Mass Spectrometry utilizes a compound’s intrinsic affinity for both a “mobile phase” (typically a buffered solvent) and a “stationary phase” (porous solid support with specialized coating).

Basically, a pump is used to provide a continuous flow of a solvent into which a dissolved sample is introduced. Once the sample is in the solvent flow, it travels through an analytical column. The compounds present in the sample mixture are then separated depending on their affinity to the coated particles in the column. After the components in the sample are separated, they pass through a mass detector. The mass detector response and the “retention time” of the compound(s) of interest may then be compared to a reference material.

Browse Details of Report @

"Liquid Chromatography Mass Spectrometry (LC/MS) is an analytical chemistry laboratory technique for identification, quantitation and mass analysis of materials."

The global LCMS Market is segmented on the basis of product types, application, and region. On the basis of type, the global market is classified into Single Quadrupole LC-MS, Triple Quadrupole LC-MS, and Ion Trap LCMS.

Single Quadrupole LC-MS – robust and reliable mass detection technique for many different functional areas of LC-MS across many different industries.Designed for compatibility with UPLC, UPSFC, HPLC, and Auto-Purification, and with a wide range of ionization options, single quadruple mass detection easy way to generate an extra dimension of information from separation.

Triple Quadruple LC-MS –also known as QqQ, is a tandem MS method in which the first and third quadruple act as mass filters and the second causes fragmentation of the analyte through interaction with a collision gas, it is a radiofrequency- only quadrupole, and can be used in either SIM or scan mode.

Ion Trap LC-MS – use three hyperbolic electrodes to trap ions in a three-dimensional space using static and radio frequency voltages. he two most common types of ion trap are the Penning trap, which forms a potential via a combination of electric and magnetic fields, and the Paul trap which forms a potential via combination of static and oscillating electric fields.

On the basis of product types, the global market is classified into HPLC, RPLC, and NPLC. Methods in which the stationary phase is more polar than the mobile phase are termed as “Normal Phase Liquid Chromatography (NPLC)” and the opposite is termed as “Reversed Phase Liquid Chromatography (RPLC). NPLC - that separate molecules depending on their polarity, these columns are made out of silica with polar functional groups covalently attached, polar molecules take longer to pass through these columns because they are attracted to it through dipole-dipole interactions. On the basis of applications, the global market is classified into pharmacokinetics, Proteomics/metabolomics,Drug development, and others (protein characterization, targeted peptide quantification, Lipidomics and small molecule drug research). Geographically, the global market is segmented into North America, Europe, Japan 


Past Conference Report

We are highly obliged and grateful to the wonderful Keynote and Plenary Speakers, Conference Attendees, Students, Media Partners and Associations for making the following World Congresses a grand success.

The 4th World Congress on Mass Spectrometry hosted by the ConferenceSeries was held during June 19-21, 2017 at Holiday Inn London - Brentford Lock, London, UK based on the theme Recent advancements, novel applications and future approaches of Mass Spectrometry". Benevolent response and active participation was received from the Organizing Committee Members along with Scientists, Researchers, Students and leaders from the area of Mass Spectrometry, Chromatography and Analytical science, who made this event a grand success.

ConferenceSeries expresses its gratitude to the conference Moderator, namely Dr. V Sabareesh from Vellore Institute of Technology (VIT) University, India for taking up the responsibility to coordinate during the sessions. We are indebted to your support. Similarly we also extend our appreciation towards our Poster judges namely, Dr. Yi-Ting Chen, Chang Gung University, Taiwan and Dr. Yang Pan, University of Science and Technology of China, China

ConferenceSeries would like to convey a warm gratitude to all the Honorable guests and Keynote Speakers of Euro Mass Spectrometry 2017:

Athula Attygalle,  Stevens Institute of Technology, USA

Magnus S Magnusson, University of Iceland, Iceland

Steven J Soldin, National Institutes of Health (NIH), USA

K W Michael Siu, University of Windsor, Canada

Marek M Kowalczuk, University of Wolverhampton, UK

Ali Mohammad-Djafari, CNRS, France

Lingzhi Gong, Queen Mary University of London, UK

Miral Dizdaroglu, National Institute of Standards and Technology, USA

Sermin Tetik,  Marmara University, Turkey

Hermann Wollnik, New Mexico State University, USA

ConferenceSeries offers its heartfelt appreciation to organizations such as our esteemed Media Partners, Exhibitors, and other eminent personalities who supported the conference by promoting in various modes online and offline which helped the conference reach every nook and corner of the globe. It also took privilege to felicitate the Keynote Speakers, Organizing Committee Members, Chairs and Co-chairs who supported this event.

Best Poster Awards Winners:

  • Laure Menin , ISIC-GE, Switzerland
  • Inhee Choi, Korea Institute of Nuclear Safety, South Korea
  • Alberto Fontana, Janssen Research & Development, Spain
  • LO Aurélien, University of Paris Saclay, France


The 5th World Congress on Mass Spectrometry hosted by the ConferenceSeries was held during September 25-26, 2017 at Holiday Inn Atlanta, USA based on the theme Recent scientific innovatory approaches, novel technologies and applications of Mass Spectrometry and Chromatography ". Benevolent response and active participation was received from the Organizing Committee Members along with Scientists, Researchers, Students and leaders from the area of Mass Spectrometry, Chromatography and Analytical science, who made this event a grand success.

ConferenceSeries expresses its gratitude to the conference Moderator, namely Dr. Jayaraman Shobini from Boston University School of Medicine United Statesf or taking up the responsibility to coordinate during the sessions. We are indebted to your support. Similarly we also extend our appreciation towards our Poster judges namely, Dr. Makhapa Makhafola, Mintek, South Africa and Dr. Eduard Rogatsky, Albert Einstein college of medicine, USA

ConferenceSeries would like to convey a warm gratitude to all the Honorable guests and Keynote Speakers of Mass Spectrometry 2017:

Mostafa El-Sayed, Georgia Institute of Technology, USA

Magnus S Magnusson, University of Iceland, Iceland

Ronghu Wu, Georgia Institute of Technology, USA

Luigi Silvestro, 3S-Pharmacological Consultation & Res, Germany

Makhapa Makhafola MINTEK, South Africa

ConferenceSeries offers its heartfelt appreciation to organizations such as our esteemed Media Partners, Exhibitors, and other eminent personalities who supported the conference by promoting in various modes online and offline which helped the conference reach every nook and corner of the globe. It also took privilege to felicitate the Keynote Speakers, Organizing Committee Members, Chairs and Co-chairs who supported this event.

Best Poster Awards Winners:

  • Daniel Milan, Mercer University Georgia, USA

With the grand success of  4th and 5th World Congresses Mass Spectrometry 2017Conference Series is proud to announce the "9th International Conference on and Mass Spectrometry and Chromatography" to be held during September 19-20, 2018 at Auckland, New Zealand.

Let us meet again @LCMS 2018


To Collaborate Scientific Professionals around the World

Conference Date November 08-09, 2018

Speaker Opportunity

Supported By

Journal of Analytical & Bioanalytical Techniques Journal of Chromatography & Separation Techniques Pharmaceutical Analytical Chemistry: Open Access Mass Spectrometry

All accepted abstracts will be published in respective Conference Series LLC LTD International Journals.

Abstracts will be provided with Digital Object Identifier by

Media partners & Collaborators & Sponsors


Media Partner


Media Partner


Media Partner


Media Partner


Media Partner


Media Partner


Media Partner


Media Partner


Media Partner


Media Partner




Media Partner


Media Partner


Media Partner




Media Partner

What People Say....

I enjoyed my stay at venue and made quite a few new contacts at the conference. The conference was nicely organized and offered a good chance for interactions with others.

Everything was great and I am so satisfied with the nice conference. Thank you for informing me and the announcement about next conference. I hope I could be a participant in your next conference at that time.

It was a pleasure for me to attend to the conference. Thank you for your valuable afford for the organization. I want to attend to the next conference. I will be happy to be updated if any progress on the event.

I would like to express my thanks and gratitude to you and the conference committees. The conference was successful and all the lectures were good and in field. I will participate in upcoming conferences.

Nice. Good Conference with many presentations. food was too good.