新光譜分析平台的全球市場:各光譜儀類型、企業規模、最終用途產業、主要地區,產業趨勢與預測(2022年~2035年)
市場調查報告書
商品編碼
1120283

新光譜分析平台的全球市場:各光譜儀類型、企業規模、最終用途產業、主要地區,產業趨勢與預測(2022年~2035年)

Novel Spectrometry Platforms Market, 2022-2035: Distribution by Type of Spectrometers, Company Size, End User Industry, Key Geographical Regions : Industry Trends and Global Forecasts, 2022-2035

出版日期: | 出版商: Roots Analysis | 英文 203 Pages | 商品交期: 最快1-2個工作天內

價格

本報告提供世界的新光譜分析平台市場相關調查分析,市場形勢,市場區隔分析,地區分析,企業簡介等資訊。

目錄

第1章 序文

第2章 摘要整理

第3章 簡介

第4章 新光譜分析平台:市場形勢

  • 章概要
  • 新光譜分析平台:整體市場形勢
  • 新光譜分析平台:開發商的形勢

第5章 企業簡介:新光譜分析平台

  • 章概要
  • Bruker
  • JEOL
  • Metrohm
  • Shimadzu
  • Thermo Fisher Scientific
  • Waters

第6章 出版物的分析

  • 章概要
  • 範圍與調查手法

第7章 全球活動分析

  • 章概要
  • 範圍與調查手法
  • 新光譜分析相關的全球活動

第8章 專利分析

  • 章概要
  • 範圍與調查手法
  • 專利基準分析
  • 專利評估分析
  • 引用數為基礎主要專利

第9章 最近的發展

  • 章概要
  • 新光譜分析平台:夥伴關係活動
  • 新光譜分析平台:最近的配合措施

第10章 SWOT分析

  • 章概要
  • 新光譜分析平台:SWOT分析

第11章 市場預測

  • 章概要
  • 主要的前提條件與調查手法
  • 對新光譜分析平台的全球需求(2022年~2035年)
  • 世界的新光譜分析平台市場(2022年~2035年)
  • 新光譜分析平台市場(2022年~2035年):保守、基本、樂觀的情境(2022年、2035年)

第12章 結束

第13章 執行見解

第14章 附錄1:資料的表

第15章 附錄2:企業、組織的清單

Product Code: RA100368

INTRODUCTION

Over time, spectroscopy has emerged as an important analytical tool for accurate and rapid analysis of compounds. It finds applications in research activities in food, biotechnology, pharmaceutical and environmental industry. Spectroscopic instruments provide information on electronic and optical properties, chemical composition and crystallinity of compounds. There are several types of spectrometers, such as mass spectrometer, atomic absorption spectrometer, nuclear magnetic resonance (NMR), Raman spectrometer, and X-Ray fluorescence (XRF), which can be used for various qualitative and quantitative analyses. Amongst various spectrometry platforms, mass spectrometry is the most popular technique owing to its high quantitative accuracy, which can be further combined with liquid chromatography (LC/MS) and gas chromatography (GC/MS) for better resolution. Having said that, there are several challenges associated with these conventional spectrometers, such as lack of automation, resulting in lesser reproducibility and sensitivity of the systems. Novel spectrometers, having demonstrated the potential to address a number of challenges associated with conventional spectrometers, have emerged as an appropriate solution. It is also worth highlighting that several advancements, such as miniaturization, portability to increase performance and throughput of the process, have been made in the instrumentation of novel spectrometers.

Around 30 companies are actively engaged in the manufacturing of novel spectrometry platforms that can be used for various analytical applications, quality control, structural biology, forensic investigations, material testing, and agriculture analysis. Further, various advanced technologies, such as new laser based system, have been introduced in the spectrometers to detect particular combination of compounds. Additionally, the field has witnessed several innovations in the data process, evolution in guidelines for processing of the instruments that are compliant with the regulatory standards, mainly based on data accuracy, speed of bioanalytical method and speed of the analysis. Moreover, in the last few years, stakeholders have undertaken several initiatives to augment their intellectual portfolio by filing 3000+ patents for latest technologies and products with advanced features. The growing popularity of novel spectrometry platforms is also evident from 60+ global events that have been organized in this field, since 2016. Given the rising interest of stakeholders towards technological advancements and growing adoption of novel spectrometers for various applications, we believe that the overall market for novel spectrometry platforms is anticipated to witness substantial growth in the coming years.

SCOPE OF THE REPORT

The 'Novel Spectrometry Platforms Market, 2022-2035: Distribution by Type of Spectrometers (Atomic Absorption Spectrometer, Mass Spectrometer, Near Infrared Spectrometer, Nuclear Magnetic Resonance Spectrometer, Raman Spectrometer and X-Ray Fluorescence Spectrometer), Company Size (Small, Mid-Sized and Large), End User Industry (Agriculture / Pesticide Testing, Environmental Analysis, Food Biotechnology, Forensic Analysis, Pharmaceutical Analysis and other end users), Key Geographical Regions (North America, Europe, Asia-Pacific, Latin America and Middle East and North Africa (MENA)): Industry Trends and Global Forecasts, 2022-2035' report features an extensive study on the current market landscape and future potential of novel spectrometers over the next decade. The study presents an in-depth analysis, highlighting the capabilities of various stakeholders engaged in this domain, across different geographies. In addition to other elements, the report includes:

  • A detailed assessment of the current market landscape of novel spectrometry platforms, featuring information on the type of spectrometer, software platform, type of technology used, type of detector, weight of spectrometer and type of end user industry. In addition, the chapter includes analysis of novel spectrometry manufacturers, along with information on their year of establishment, company size, location of headquarters and leading players (in terms of number of products being offered).
  • Elaborate profiles of the players offering novel spectrometry platforms (shortlisted on the basis of the year of experience of the company). Each profile features a brief overview of the company, financial information (if available), details on its product portfolio, and a section on recent developments and an informed future outlook.
  • An analysis of over 700 peer-reviewed scientific articles related to novel spectrometry, published since 2018, based on several parameters, such as year of publication, type of article, emerging focus areas, most popular journals, most popular publishers and most popular copyright holders.
  • A detailed analysis of global events attended by the participants, based on several relevant parameters, such as year of event, event platform, type of event, location of event, emerging focus areas, active organizers (in terms of number of events) and designation of participants. The chapter also highlights the geographical mapping of upcoming events.
  • An insightful analysis of the patents filed / granted for novel spectrometry platforms, since 2018, taking into consideration various relevant parameters, such as type of patent, publication year, geographical location, CPC symbols, emerging focus areas, type of organization, leading players (in terms of number of patents granted / filed in the given time period) and patent characteristics. In addition, the chapter includes a detailed patent benchmarking and an insightful valuation analysis.
  • An analysis of various developments / recent trends related to novel spectrometry, offering insights on partnerships and collaborations and recent initiatives being undertaken related to novel spectrometry platforms.
  • A discussion on affiliated trends, key drivers and challenges, under a SWOT framework, featuring a Harvey ball analysis, highlighting the relative impact of each SWOT parameter on the overall novel spectrometry platforms market.

One of the key objectives of the report was to estimate the existing market size and the future opportunity for novel spectrometry platforms, over the coming 13 years. We have provided informed estimates on the likely evolution of the market in the short to mid-term and long term, for the period 2022-2035. Our year-wise projections of the current and future opportunity have further been segmented based on relevant parameters, such as type of spectrometers (atomic absorption spectrometer, mass spectrometer, near infrared spectrometer, nuclear magnetic resonance spectrometer, Raman spectrometer and X-ray fluorescence spectrometer), company size (small, mid-sized and large), end-user industry (agriculture / pesticide testing, environmental analysis, food biotechnology, forensic analysis, pharmaceutical analysis and other end users), and key geographical regions (North America, Europe, Asia-Pacific, Latin America and MENA). In order to account for future uncertainties and to add robustness to our model, we have provided three market forecast scenarios, namely conservative, base and optimistic scenarios, representing different tracks of the anticipated industry's growth.

The opinions and insights presented in the report were also influenced by discussions held with senior stakeholders in the industry. The report features detailed transcripts of interviews held with the following individuals:

  • Nick Jones (Global Application and Development Director, LECO)
  • Nicole Zhang (Product Manager, Shimadzu)
  • Chris Henry (Senior Scientist, Waters)

All actual figures have been sourced and analyzed from publicly available information forums and primary research discussions. Financial figures mentioned in this report are in USD, unless otherwise specified.

RESEARCH METHODOLOGY

The data presented in this report has been gathered via secondary and primary research. For all our projects, we conduct interviews with experts in the area (academia, industry and other associations) to solicit their opinions on emerging trends in the market. The information is primarily useful for us to draw out our opinion on how the market will evolve across different regions and technology segments. Wherever possible, the available data has been validated from multiple sources of information.

The secondary sources of information include:

  • Annual reports
  • Investor presentations
  • SEC filings
  • Industry databases
  • News releases from company websites
  • Government policy documents
  • Industry analysts' views

While the focus has been on forecasting the market till 2035, the report also provides our independent views on various non-commercial trends emerging in the industry. This opinion is solely based on our knowledge, research and understanding of the relevant market gathered from various secondary and primary sources of information.

KEY QUESTIONS ANSWERED

  • Who are the key players engaged in the development of novel spectrometry platforms?
  • How has the intellectual property landscape in the novel spectrometry platforms evolved over the years?
  • What are the key agenda items being discussed in various global events / conferences held novel spectrometry platforms?
  • What is the focus area of the ongoing research activities related to novel spectrometry platforms?
  • Which partnership models are most commonly adopted by stakeholders engaged in this industry?
  • How is the current and future market opportunity, likely to be distributed across key market segments?

CHAPTER OUTLINES

  • Chapter 2 is an executive summary of the key insights captured in our research. It offers a high-level view on the current state of the novel spectrometry platforms market and its likely evolution in the short-mid to long term.
  • Chapter 3 provides a brief overview of spectrometry, principle and specifications of the spectrometers. Additionally, it features information on types of spectrometry platforms, comparison between conventional and novel spectrometers, and applications of novel and conventional spectrometry platforms. Further, it also highlights the future perspectives of novel spectrometry platforms domain.
  • Chapter 4 presents an overview of the current market landscape of novel spectrometry platforms, featuring a detailed analysis of these systems based on several parameters, such as type of spectrometer, software platform, type of technology used, type of detector, weight of spectrometer and type of end user industry. In addition, the chapter includes analysis of novel spectrometry manufacturers, along with information on their year of establishment, company size, location of headquarters and leading players (in terms of number of products being offered).
  • Chapter 5 includes elaborate profiles of the key players engaged in the development of novel spectrometry platforms (shortlisted on the basis of the year of experience of the company). Each profile features a brief overview of the company, its financial information (if available), details on its product portfolio, recent developments and an informed future outlook.
  • Chapter 6 features a detailed overview of over 700 peer-reviewed scientific articles related to novel spectrometry, published since 2018, based on several parameters, such as year of publication, type of article, emerging focus areas, most popular journals, most popular publishers and most popular copyright holders.
  • Chapter 7 features an analysis of the global events attended by the participants, based on several relevant parameters, such as year of event, event platform, type of event, location of event, emerging focus areas, active organizers (in terms of number of events) and designation of participants. The chapter also highlights the geographical mapping of upcoming events.
  • Chapter 8 features an in-depth analysis of the patents that have been filed / granted for the novel spectrometry platforms, since 2016. The analysis also highlights the key trends associated with the patents, such as the type of patent, publication year, geographical location, CPC symbols, emerging focus areas, type of organization, leading players (in terms of number of patents granted / filed in the given time period) and patent characteristics. In addition, the chapter includes a detailed patent benchmarking and an insightful valuation analysis.
  • Chapter 9 features the analysis of various developments / recent trends related to novel spectrometry, offering insights on partnerships and collaborations and recent initiatives related to novel spectrometers.
  • Chapter 10 provides information on the affiliated trends, key drivers and challenges associated with novel spectrometry platforms, under a reliable SWOT framework. The chapter includes a Harvey ball analysis, highlighting the relative impact of each SWOT parameter on the overall novel spectrometry platforms market.
  • Chapter 11 presents an insightful market forecast analysis, highlighting future potential of novel spectrometry platforms, till the year 2035. In order to provide a detailed future outlook, our projections have been segmented across the type of spectrometers (atomic absorption spectrometer, mass spectrometer, near infrared spectrometer, nuclear magnetic resonance spectrometer, Raman spectrometer and X-Ray fluorescence spectrometer), company size (small, mid-sized and large), end-user industry (food Biotechnology, environmental analysis, forensic analysis, agriculture / pesticide testing, pharmaceutical analysis and other end users), and key geographical regions (North America, Europe, Asia-Pacific, Latin America and MENA).
  • Chapter 12 is a summary of the overall report, presenting insights on the contemporary market trends and the likely evolution of the novel spectrometry market.
  • Chapter 13 features transcripts of the interviews conducted with senior representatives of renowned organizations that are engaged in the novel spectrometry domain.
  • Chapter 14 is an appendix, that contains tabulated data and numbers for all the figures provided in the report.
  • Chapter 15 is an appendix, that contains the list of companies and organizations mentioned in the report.

TABLE OF CONTENTS

1. PREFACE

  • 1.1. Scope of the Report
  • 1.2. Market Segmentation
  • 1.3. Research Methodology
  • 1.4. Key Questions Answered
  • 1.5. Chapter Outlines

2. EXECUTIVE SUMMARY

3. INTRODUCTION

  • 3.1. Chapter Overview
  • 3.2. Overview of Spectrometry
  • 3.3 Types of Spectrometry
  • 3.4. Principle of Spectrometers
  • 3.5. Specifications of Spectrometers
  • 3.6. Types of Spectrometers
  • 3.7. Comparison of Conventional and Novel Mass Spectrometers
  • 3.8. Applications of Novel Spectrometry Platforms
  • 3.9. Applications of Conventional Spectrometry Platforms
  • 3.10. Future Prospects in Spectrometry

4. NOVEL SPECTROMETRY PLATFORMS: MARKET LANDSCAPE

  • 4.1. Chapter Overview
  • 4.2. Novel Spectrometry Platforms: Overall Market Landscape
    • 4.2.1. Analysis by Type of Spectrometer
    • 4.2.2. Analysis by Software Platform
    • 4.2.3. Analysis by Type of Technology Used
    • 4.2.4. Analysis by Type of Detector
    • 4.2.5. Analysis by Weight of Spectrometer
    • 4.2.6. Analysis by Type of End User Industry
  • 4.3. Novel Spectrometry Platforms: Developer Landscape
    • 4.3.1. Analysis by Year of Establishment
    • 4.3.2. Analysis by Company Size
    • 4.3.3. Analysis by Location of Headquarters
    • 4.3.4. Analysis by Location of Headquarters and Company Size
    • 4.3.5. Leading Players: Analysis by Number of Novel Spectrometry Platforms Manufactured

5. COMPANY PROFILES: NOVEL SPECTROMETRY PLATFORMS

  • 5.1. Chapter Overview
  • 5.2. Bruker
    • 5.2.1. Company Overview
    • 5.2.2. Financial Information
    • 5.2.3. Product Portfolio
      • 5.2.3.1. Recent Developments and Future Outlook
  • 5.3. JEOL
    • 5.3.1. Company Overview
    • 5.3.2. Financial Information
    • 5.3.3. Product Portfolio
    • 5.3.4. Recent Developments and Future Outlook
  • 5.4. Metrohm
    • 5.4.1. Company Overview
    • 5.4.2. Product Portfolio
    • 5.4.3. Recent Developments and Future Outlook
    • 5.4.4. PerkinElmer
    • 5.4.5. Company Overview
    • 5.4.6. Financial Information
    • 5.4.7. Product Portfolio
    • 5.4.8. Recent Developments and Future Outlook
  • 5.5. Shimadzu
    • 5.5.1. Company Overview
    • 5.5.2. Financial Information
    • 5.5.3. Product Portfolio
    • 5.5.4. Recent Developments and Future Outlook
  • 5.6. Thermo Fisher Scientific
    • 5.6.1. Company Overview
    • 5.6.2. Financial Information
    • 5.6.3. Product Portfolio
    • 5.6.4. Recent Developments and Future Outlook
  • 5.7. Waters
    • 5.7.1. Company Overview
    • 5.7.2. Financial Information
    • 5.7.3. Product Portfolio
    • 5.7.4. Recent Developments and Future Outlook

6. PUBLICATION ANALYSIS

  • 6.1. Chapter Overview
  • 6.2. Scope and Methodology
    • 6.2.1. Analysis by Year of Publication
    • 6.2.2. Analysis by Type of Article
    • 6.2.3. Most Popular Journals: Analysis by Number of Publications
    • 6.2.4. Most Active Publishers: Analysis by Number of Publications
    • 6.2.5. Most Popular Copyright Holders: Analysis by Number of Publications
    • 6.2.6. Most Popular Journals: Analysis by Impact Factor
    • 6.2.7. Analysis by Geography

7. GLOBAL EVENT ANALYSIS

  • 7.1. Chapter Overview
  • 7.2. Scope and Methodology
  • 7.3. Global Events related to Novel Spectrometry
    • 7.3.1. Analysis by Year of Event
    • 7.3.2. Analysis by Event Platform
    • 7.3.3. Analysis by Type of Event
    • 7.3.4. Analysis by Location of Event
    • 7.3.5. Word Cloud: Evolutionary Trends in Event Agenda / Key Focus Area
    • 7.3.6. Most Active Event Organizers: Analysis by Number of Events
    • 7.3.7. Analysis by Designation of Participants
    • 7.3.8. Geographical Mapping of Upcoming Events

8. PATENT ANALYSIS

  • 8.1. Chapter Overview
  • 8.2. Scope and Methodology
    • 8.2.1. Analysis by Type of Patent
    • 8.2.2. Analysis by Patent Publication Year
    • 8.2.3. Analysis by Annual Number of Granted Patents and Patent Applications
    • 8.2.4. Analysis by Geographical Location
    • 8.2.5. Analysis by CPC Symbols
    • 8.2.6. Word Cloud: Emerging Focus Areas
    • 8.2.7. Analysis by Type of Organization
    • 8.2.8. Leading Industry Players: Analysis by Number of Patents
    • 8.2.9. Leading Non-Industry Players: Analysis by Number of Patents
  • 8.3. Patent Benchmarking Analysis
    • 8.3.1. Analysis by Patent Characteristics
  • 8.4. Patent Valuation Analysis
  • 8.5. Leading Patents Based on Number of Citations

9. RECENT DEVELOPMENTS

  • 9.1. Chapter Overview
  • 9.2. Novel Spectrometry Platforms: Partnership Activity
    • 9.2.1. Partnership Models
    • 9.2.2. List of Partnerships and Collaborations
      • 9.2.2.1. Analysis by Year of Partnership
      • 9.2.2.2. Analysis by Type of Partnership
      • 9.2.2.3. Analysis by Type of Spectrometer
      • 9.2.2.4. Most Active Players: Analysis by Number of Partnership
      • 9.2.2.5. Word Cloud Analysis: Emerging Focus Areas
      • 9.2.2.6. Regional Analysis
      • 9.2.2.7. Intercontinental and Intracontinental Agreements
  • 9.3. Novel Spectrometry Platforms: Recent Initiatives
    • 9.3.1. List of Initiatives
      • 9.3.1.1 Analysis by Year of Initiatives
      • 9.3.1.2. Analysis by Type of Initiatives
      • 9.3.1.3. Analysis by Type of Spectrometers
      • 9.3.1.4. Most Active Players: Analysis by Number of Initiatives
      • 9.3.1.5. Analysis by Geography and Type of Initiative
      • 9.3.1.6. Word Cloud Analysis: Emerging Focus Areas

10. SWOT ANALYSIS

  • 10.1. Chapter Overview
  • 10.2. Novel Spectrometry Platforms: SWOT Analysis
    • 10.2.1. Comparison of SWOT Factors

11. MARKET FORECAST

  • 11.1. Chapter Overview
  • 11.2. Key Assumptions and Methodology
  • 11.3. Global Demand for Novel Spectrometry Platforms, 2022-2035
  • 11.4. Global Novel Spectrometry Platforms Market, 2022-2035
  • 11.5. Novel Spectrometry Platforms Market, 2022-2035: Conservative, Base and Optimistic Scenario, 2022 and 2035
    • 11.5.1. Novel Spectrometry Platforms Market, 2022-2035: Distribution by Type of Spectrometers, 2022 and 2035
      • 11.5.1.1. Novel Spectrometry Platforms Market for Atomic Absorption Spectrometers, 2022-2035
      • 11.5.1.2. Novel Spectrometry Platforms Market for Mass Spectrometers, 2022-2035
      • 11.5.1.3. Novel Spectrometry Platforms Market for Near Infrared Spectrometers, 2022-2035
      • 11.5.1.4. Novel Spectrometry Platforms Market for Nuclear Magnetic Resonance Spectrometers, 2022-2035
      • 11.5.1.5. Novel Spectrometry Platforms Market for Raman Spectrometers, 2022-2035
      • 11.5.1.6. Novel Spectrometry Platforms Market for X-Ray Fluorescence Spectrometers, 2022-2035
    • 11.5.2. Novel Spectrometry Platforms Market, 2022-2035: Distribution by Company Size, 2022 and 2035
      • 11.5.2.1. Novel Spectrometry Platforms Market for Small Companies, 2022-2035
      • 11.5.3.1. Novel Spectrometry Platforms Market for Mid-Sized Companies, 2022-2035
      • 11.5.3.1. Novel Spectrometry Platforms Market for Large Companies, 2022-2035
    • 11.5.3. Novel Spectrometry Platforms Market, 2022-2035: Distribution by End User Industry, 2022 and 2035
      • 11.5.3.1. Novel Spectrometry Platforms Market for Agriculture / Pesticide Testing, 2022-2035
      • 11.5.3.2. Novel Spectrometry Platforms Market for Environmental Analysis, 2022-2035
      • 11.5.3.3. Novel Spectrometry Platforms Market for Food Biotechnology, 2022-2035
      • 11.5.3.4. Novel Spectrometry Platforms Market for Forensic Analysis, 2022-2035
      • 11.5.3.5. Novel Spectrometry Platforms Market for Pharmaceutical Analysis, 2022-2035
      • 11.5.3.6. Novel Spectrometry Platforms Market for Other End Users, 2022-2035
    • 11.5.4. Novel Spectrometry Platforms Market, 2022-2035: Distribution by Key Geographical Regions, 2022 and 2035
      • 11.5.4.1. Novel Spectrometry Platforms Market in North America, 2022-2035
      • 11.5.4.2. Novel Spectrometry Platforms Market in Europe, 2022-2035
      • 11.5.4.3. Novel Spectrometry Platforms Market in Asia-Pacific, 2022-2035
      • 11.5.4.4. Novel Spectrometry Platforms Market in Latin America, 2022-2035
      • 11.5.4.5. Novel Spectrometry Platforms Market in MENA, 2022-2035

12. CONCLUDING REMARKS

13. EXECUTIVE INSIGHTS

  • 13.1. Chapter Overview
  • 13.2. LECO
    • 13.2.1. Company Snapshot
    • 13.2.2. Interview Transcript: Nick Jones, Global Application and Development Director
  • 13.3 Shimadzu
    • 13.3.1. Company Snapshot
    • 13.3.2. Interview Transcript: Nicole Zhang, Product Manager
  • 13.4. Waters
    • 13.4.1. Company Snapshot
    • 13.4.2. Interview Transcript: Chris Henry, Senior Scientist

14. APPENDIX 1: TABULATED DATA

15. APPENDIX 2: LIST OF COMPANIES AND ORGANIZATIONS

LIST OF TABLES

  • Table 3.1 Comparison of Conventional and Novel Mass Spectrometry
  • Table 3.2 Summary of Spectrometry
  • Table 4.1 Novel Spectrometry Platforms: Information on Type of Spectrometer, Type of Technology Used and Software Platform
  • Table 4.2 Novel Spectrometry Platforms: Information on Type of Detector, Scan Rates, Weight, and Dimensions of Spectrometers
  • Table 4.3 List of Novel Spectrometry Platforms Developers
  • Table 5.1 Novel Spectrometry Platforms: List of Companies Profiled
  • Table 5.2 Bruker: Company Snapshot
  • Table 5.3 Bruker: Recent Developments and Future Outlook
  • Table 5.4 JEOL: Company Snapshot
  • Table 5.5 JEOL: Recent Developments and Future Outlook
  • Table 5.6 Metrohm: Company Snapshot
  • Table 5.7 Metrohm: Recent Developments and Future Outlook
  • Table 5.8 PerkinElmer: Company Snapshot
  • Table 5.9 PerkinElmer: Recent Developments and Future Outlook
  • Table 5.10 Shimadzu: Company Snapshot
  • Table 5.11 Shimadzu: Recent Developments and Future Outlook
  • Table 5.12 Thermo Fisher Scientific: Company Snapshot
  • Table 5.13 Thermo Fisher Scientific: Recent Developments and Future Outlook
  • Table 5.14 Waters: Company Snapshot
  • Table 5.15 Waters: Recent Developments and Future Outlook
  • Table 7.1 List of Global Events related to Novel Spectrometry
  • Table 8.1 Patent Analysis: Prominent CPC Symbols
  • Table 8.2 Patent Analysis: List of Top CPC Symbols
  • Table 8.3 Patent Analysis: Most Popular CPC Symbols
  • Table 8.4 Patent Analysis: Summary of Benchmarking Analysis
  • Table 8.5 Patent Analysis: Categorization based on Weighted Valuation Scores
  • Table 8.6 Patent Portfolio: List of Leading Patents (by Highest Relative Valuation)
  • Table 8.7 Patent Portfolio: List of Leading Patents (by Number of Citations)
  • Table 9.1 List of Partnerships and Collaborations, Pre-2018-2022 (till June)
  • Table 9.2 List of Recent Initiatives related to Novel Spectrometry Platforms
  • Table 14.1 Novel Spectrometry Platforms: Distribution by Type of Spectrometer
  • Table 14.2 Novel Spectrometry Platforms: Distribution by Software Platform
  • Table 14.3 Novel Spectrometry Platforms: Distribution by Technology Used
  • Table 14.4 Novel Spectrometry Platforms: Distribution by Type of Detector
  • Table 14.5 Novel Spectrometry Platforms: Distribution by Weight of Spectrometer
  • Table 14.6 Novel Spectrometry Platforms: Distribution by Type of End User Industry
  • Table 14.7 Novel Spectrometry Platforms: Distribution by Year of Establishment
  • Table 14.8 Novel Spectrometry Platforms: Distribution by Company Size
  • Table 14.9 Novel Spectrometry Platforms: Distribution by Region of Headquarters
  • Table 14.10 Novel Spectrometry Platforms: Distribution by Location of Headquarters and Company Size
  • Table 14.11 Novel Spectrometry Platforms: Distribution by Location of Headquarters
  • Table 14.12 Leading Players: Distribution by Number of Novel Spectrometry Platforms Manufactured
  • Table 14.13 Bruker: Annual Revenues, FY 2017-Q1 2022 (USD Billion)
  • Table 14.14 JEOL: Annual Revenues, FY 2017-Q1 2022 (USD Billion)
  • Table 14.15 PerkinElmer: Annual Revenues, FY 2017-Q1 2022 (USD Billion)
  • Table 14.16 Shimadzu: Annual Revenues, FY 2017-9M 2022 (JPY Billion)
  • Table 14.17 ThermoFisher Scientific: FY 2017-Q1 2022 (USD Billion)
  • Table 14.18 Waters: FY 2017-Q1 2022 (USD Billion)
  • Table 14.19 Publication Analysis: Cumulative Year-wise Trend, 2016-2022 (till May)
  • Table 14.20 Publication Analysis: Distribution by Type of Article
  • Table 14.21 Most Popular Journals: Distribution by Number of Publications
  • Table 14.22 Most Popular Publishers: Distribution by Number of Publications
  • Table 14.23 Most Popular Copyright Holders: Distribution by Number of Publications
  • Table 14.24 Global Events: Cumulative Year-Wise Trend, 2016-H1 2022
  • Table 14.25 Global Events: Distribution by Event Platform
  • Table 14.26 Global Events: Distribution by Type of Event
  • Table 14.27 Global Events: Distribution by Location of Event
  • Table 14.28 Most Active Event Organizers: Distribution by Number of Events
  • Table 14.29 Global Events: Distribution by Seniority Level of Event Speakers
  • Table 14.30 Global Events: Distribution by Affiliated Department of Event Speakers
  • Table 14.31 Patent Analysis: Distribution by Type of Patent
  • Table 14.32 Patent Analysis: Cumulative Distribution by Publication Year, 2018-2022 (till June)
  • Table 14.33 Patent Analysis: Distribution by Annual Number of Granted Patents and Patent Applications, 2016-2022 (till June)
  • Table 14.34 Patent Analysis: Distribution by Geographical Location
  • Table 14.35 Patent Analysis: Distribution by CPC Symbols
  • Table 14.36 Patent Analysis: Cumulative Year-wise Distribution by Type of Organization, 2016-2022 (till June)
  • Table 14.37 Leading Industry Players: Distribution by Number of Patents
  • Table 14.38 Leading Non-Industry Players: Distribution by Number of Patents
  • Table 14.39 Leading Individual Assignees: Distribution by Number of Patents
  • Table 14.40 Leading Players: Benchmarking by Patent Characteristics (CPC Symbols)
  • Table 14.41 Patent Analysis: Year-wise Distribution of Patents by Age, 2006-2021
  • Table 14.42 Novel Spectrometry Platforms: Patent Valuation Analysis
  • Table 14.43 Partnerships and Collaborations: Cumulative Year-wise Trend, Pre-2018-2022 (till June)
  • Table 14.44 Partnerships and Collaborations: Distribution by Type of Partnership
  • Table 14.45 Partnerships and Collaborations: Distribution by Year and Type of Partnership, Pre-2018-2022 (till June)
  • Table 14.46 Partnerships and Collaborations: Distribution by Type of Spectrometers
  • Table 14.47 Most Active Players: Distribution by Number of Partnerships
  • Table 14.48 Partnerships and Collaborations: Regional Distribution
  • Table 14.49 Partnerships and Collaborations: Intercontinental and Intracontinental Agreements
  • Table 14.50 Recent Initiatives: Analysis by Year of Initiatives
  • Table 14.51 Recent Initiatives: Analysis by Initiatives
  • Table 14.52 Recent Initiatives: Analysis by Type of Spectrometers
  • Table 14.53 Most Active Players: Distribution by Number of Initiatives
  • Table 14.54 Recent Initiatives: Distribution by Geography and Type of Initiative
  • Table 14.55 Global Demand for Novel Spectrometry Platforms, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.56 Global Novel Spectrometry Platforms Market, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.57 Novel Spectrometry Platforms Market, 2022-2035: Distribution by Type of Spectrometer, 2022 and 2035
  • Table 14.58 Novel Spectrometry Platforms Market for Atomic Absorption Spectrometers, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.59 Novel Spectrometry Platforms Market for Mass Spectrometers, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.60 Novel Spectrometry Platforms Market for Near Infrared Spectrometers, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.61 Novel Spectrometry Platforms Market for Nuclear Magnetic Resonance Spectrometers, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.62 Novel Spectrometry Platforms Market for, Raman Spectrometers, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.63 Novel Spectrometry Platforms Market for X-Ray Fluorescence Spectrometers, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.64 Novel Spectrometry Platforms Market, 2022-2035: Distribution by Company Size, 2022 and 2035
  • Table 14.65 Novel Spectrometry Platforms Market for Small Companies, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.66 Novel Spectrometry Platforms Market for Mid-Sized Companies, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.67 Novel Spectrometry Platforms Market for Large Companies, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.68 Novel Spectrometry Platforms Market, 2022-2035: Distribution by End User Industry, 2022 and 2035
  • Table 14.69 Novel Spectrometry Platforms Market for Agriculture / Pesticide Testing, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.70 Novel Spectrometry Platforms Market for Environmental Analysis, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.71 Novel Spectrometry Platforms Market for Food Biotechnology, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.72 Novel Spectrometry Platforms Market for Forensic Analysis, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.73 Novel Spectrometry Platforms Market for Pharmaceutical Analysis, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.74 Novel Spectrometry Platforms Market for Other End Users, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.75 Novel Spectrometry Platforms Market, 2022-2035: Distribution by Key Geographical Regions, 2022 and 2035
  • Table 14.76 Novel Spectrometry Platforms Market in North America, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.77 Novel Spectrometry Platforms Market in Europe, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.78 Novel Spectrometry Platforms Market in Asia-Pacific, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.79 Novel Spectrometry Platforms Market in Latin America, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)
  • Table 14.80 Novel Spectrometry Platforms Market in MENA, 2022-2035: Conservative, Base and Optimistic Scenarios (USD Million)

LIST OF FIGURES

  • Figure 2.1 Executive Summary: Overall Market Landscape of Novel Spectrometry Platforms
  • Figure 2.2 Executive Summary: Publication Analysis
  • Figure 2.3 Executive Summary: Global Event Analysis
  • Figure 2.4 Executive Summary: Patent Analysis
  • Figure 2.5 Executive Summary: Recent Developments
  • Figure 2.6 Executive Summary: Market Forecast and Opportunity Analysis
  • Figure 3.1 Principle of Spectrometers
  • Figure 3.2 Types of Spectrometers
  • Figure 4.1 Novel Spectrometry Platforms: Distribution by Type of Spectrometer
  • Figure 4.2 Novel Spectrometry Platforms: Distribution by Software Platform
  • Figure 4.3 Novel Spectrometry Platforms: Distribution by Type of Technology Used
  • Figure 4.4 Novel Spectrometry Platforms: Distribution by Type of Detector
  • Figure 4.5 Novel Spectrometry Platforms: Distribution by Weight of Spectrometer
  • Figure 4.6 Novel Spectrometry Platforms: Distribution by Type of End User Industry
  • Figure 4.7 Novel Spectrometry Platforms: Distribution by Year of Establishment
  • Figure 4.8 Novel Spectrometry Platforms: Distribution by Company Size
  • Figure 4.9 Novel Spectrometry Platforms: Distribution by Location of Headquarters
  • Figure 4.10 Novel Spectrometry Platforms: Distribution by Location of Headquarters and Company Size
  • Figure 4.11 Leading Players: Distribution by Number of Novel Spectrometry Platforms Manufactured
  • Figure 5.1 Bruker: Annual Revenues, FY 2017-Q1 2022 (USD Billion)
  • Figure 5.2 JEOL: Annual Revenues, FY 2017-Q1 2022 (USD Billion)
  • Figure 5.3 PerkinElmer: Annual Revenues, FY 2017-Q1 2022 (USD Billion)
  • Figure 5.4 Shimadzu: Annual Revenues, FY 2017-9M 2022 (JPY Billion)
  • Figure 5.5 ThermoFisher Scientific: FY 2017-Q1 2022 (USD Billion)
  • Figure 5.6 Waters: FY 2017-Q1 2022 (USD Billion)
  • Figure 6.1 Publication Analysis: Cumulative Year-wise Trend, 2016-2022 (till May)
  • Figure 6.2 Publication Analysis: Distribution by Type of Article
  • Figure 6.3 Most Popular Journals: Distribution by Number of Publications
  • Figure 6.4 Most Active Publishers: Distribution by Number of Publications
  • Figure 6.5 Most Popular Copyright Holders: Distribution by Number of Publications
  • Figure 6.6 Most Popular Journals: Distribution by Impact Factor
  • Figure 6.7 Publication Analysis: Distribution by Geography
  • Figure 7.1 Global Events: Cumulative Year-Wise Trend, 2016-H1 2022
  • Figure 7.2 Global Events: Distribution by Event Platform
  • Figure 7.3 Global Events: Distribution by Type of Event
  • Figure 7.4 Global Events: Distribution by Location of Event
  • Figure 7.5 Word Cloud: Evolutionary Trends in Event Agenda / Key Focus Area
  • Figure 7.6 Global Events: Historical Trend of Event Agendas, 2016-H1 2022
  • Figure 7.7 Most Active Event Organizers: Distribution by Number of Events
  • Figure 7.8 Global Events: Distribution by Seniority Level of Event Speakers
  • Figure 7.9 Global Events: Distribution by Affiliated Department of Event Speakers
  • Figure 7.10 Global Events: Geographical Mapping of Upcoming Events
  • Figure 8.1 Patent Analysis: Distribution by Type of Patent
  • Figure 8.2 Patent Analysis: Cumulative Distribution by Publication Year, 2018-2022 (till June)
  • Figure 8.3 Patent Analysis: Cumulative Distribution by Annual Number of Granted Patents and Patent Applications, 2016-2022 (till June)
  • Figure 8.4 Patent Analysis: Distribution by Geographical Location
  • Figure 8.5 Patent Analysis: Distribution by CPC Symbols
  • Figure 8.6 Word Cloud: Emerging Focus Areas
  • Figure 8.7 Patent Analysis: Cumulative Year-wise Distribution by Type of Organization, 2016-2022 (till June)
  • Figure 8.8 Leading Industry Players: Distribution by Number of Patents
  • Figure 8.9 Leading Non-Industry Players: Distribution by Number of Patents
  • Figure 8.10 Leading Individual Assignees: Distribution by Number of Patents
  • Figure 8.11 Leading Players: Benchmarking by Patent Characteristics (CPC Symbols)
  • Figure 8.12 Patent Analysis: Year-wise Distribution of Patents by Age, 2006-2021
  • Figure 8.13 Novel Spectrometry Platforms: Patent Valuation Analysis
  • Figure 9.1 Partnerships and Collaborations: Cumulative Year-wise Trend, Pre-2018-2022 (till June)
  • Figure 9.2 Partnerships and Collaborations: Distribution by Type of Partnership
  • Figure 9.3 Partnerships and Collaborations: Distribution by Year and Type of Partnership, Pre-2018-2022 (June)
  • Figure 9.4 Partnerships and Collaborations: Distribution by Type of Spectrometer
  • Figure 9.4 Most Active Players: Distribution by Number of Partnerships
  • Figure 9.6 Word Cloud: Emerging Focus Areas
  • Figure 9.7 Partnerships and Collaborations: Regional Distribution
  • Figure 9.8 Partnerships and Collaborations: Intercontinental and Intracontinental Agreements
  • Figure 9.9 Recent Initiatives: Analysis by Year of Initiatives
  • Figure 9.10 Recent Initiatives: Analysis by Type of Initiatives
  • Figure 9.11 Recent Initiatives: Analysis by Type of Spectrometers
  • Figure 9.12 Most Active Players: Distribution by Number of Initiatives
  • Figure 9.13 New Initiatives: Distribution by Geography and Type of Initiative
  • Figure 9.14 Word Cloud: Emerging Focus Areas
  • Figure 10.1 Novel Spectrometry: SWOT Analysis
  • Figure 10.2 SWOT Factors: Harvey Ball Analysis
  • Figure 11.1 Global Demand for Novel Spectrometry Platforms, 2022-2035 (USD Million)
  • Figure 11.2 Global Novel Spectrometry Platforms Market, 2022-2035 (USD Million)
  • Figure 11.3 Novel Spectrometry Platforms Market: Distribution by Type of Spectrometer, 2022 and 2035
  • Figure 11.4 Novel Spectrometry Platforms Market for Atomic Absorption Spectrometers, 2022-2035 (USD Million)
  • Figure 11.5 Novel Spectrometry Platforms Market for Mass Spectrometers, 2022-2035 (USD Million)
  • Figure 11.6 Novel Spectrometry Platforms Market for Near Infrared Spectrometers, 2022-2035 (USD Million)
  • Figure 11.7 Novel Spectrometry Platforms Market for Nuclear Magnetic Resonance Spectrometers, 2022-2035 (USD Million)
  • Figure 11.8 Novel Spectrometry Platforms Market for Raman Spectrometers, 2022-2035 (USD Million)
  • Figure 11.9 Novel Spectrometry Platforms Market for X-Ray Fluorescence Spectrometers, 2022-2035 (USD Million)
  • Figure 11.10 Novel Spectrometry Platforms Market: Distribution by Company Size, 2022 and 2035
  • Figure 11.11 Novel Spectrometry Platforms Market for Small Companies, 2022-2035 (USD Million)
  • Figure 11.12 Novel Spectrometry Platforms Market for Mid-Sized Companies, 2022-2035 (USD Million)
  • Figure 11.13 Novel Spectrometry Platforms Market for Large Companies, 2022-2035 (USD Million)
  • Figure 11.14 Novel Spectrometry Platforms Market: Distribution by End User Industry, 2022 and 2035
  • Figure 11.15 Novel Spectrometry Platforms Market for Agriculture / Pesticide Testing, 2022-2035 (USD Million)
  • Figure 11.16 Novel Spectrometry Platforms Market for Environmental Analysis, 2022-2035 (USD Million)
  • Figure 11.17 Novel Spectrometry Platforms Market for Food Biotechnology, 2022-2035 (USD Million)
  • Figure 11.18 Novel Spectrometry Platforms Market for Forensic Analysis, 2022-2035 (USD Million)
  • Figure 11.19 Novel Spectrometry Platforms Market for Pharmaceutical Analysis, 2022-2035 (USD Million)
  • Figure 11.20 Novel Spectrometry Platforms Market for Other End Users, 2022-2035 (USD Million)
  • Figure 11.21 Novel Spectrometry Platforms Market: Distribution by Key Geographical Regions, 2022 and 2035
  • Figure 11.22 Novel Spectrometry Platforms Market in North America, 2022-2035 (USD Million)
  • Figure 11.23 Novel Spectrometry Platforms Market in Europe, 2022-2035 (USD Million)
  • Figure 11.24 Novel Spectrometry Platforms Market in Asia-Pacific, 2022-2035 (USD Million)
  • Figure 11.25 Novel Spectrometry Platforms Market in Latin America, 2022-2035 (USD Million)
  • Figure 11.26 Novel Spectrometry Platforms Market in MENA, 2022-2035 (USD Million)
  • Figure 12.1 Concluding Remarks: Market Landscape of Novel Spectrometry Platforms
  • Figure 12.2 Concluding Remarks: Publication Analysis
  • Figure 12.3 Concluding Remarks: Global Event Analysis
  • Figure 12.4 Concluding Remarks: Patent Analysis
  • Figure 12.5 Concluding Remarks: Recent Developments
  • Figure 12.6 Concluding Remarks: Market Forecast and Opportunity Analysis