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The High Energy Chemistry / Hazardous Chemistry- based API manufacturing services market is projected to grow at an annualized rate of ~8%, till 2030
Roots Analysis has done a detailed study on High Energy Chemistry / Hazardous Chemistry-based API Manufacturing Services Market: Focus on High Temperature, Low Temperature / Cryogenic, High Pressure and Low Pressure Chemistries, 2020-2030, covering key aspects of the industry’s evolution and identifying potential future growth opportunities.
To order this 240+ page report, which features 90+ figures and 100+ tables, please visit this link
Key Market Insights
Presently, over 100 service providers across the globe have capabilities to handle high energy / hazardous chemistry conditions, offering contract and custom manufacturing services for pharmaceutical APIs
The market landscape is highly fragmented, featuring the presence of both established players and new entrants; majority of the companies have presence in Europe and Asia Pacific regions
API manufacturing facilities of service providers are well equipped to handle / maintain a wide range of temperature and pressure conditions to carry out HEC reactions
Industry stakeholders are actively expanding their existing capabilities through installation of advanced equipment at their manufacturing facilities, in order to maintain a competitive edge in the market
Service Providers are offering a diverse portfolio of reactions for manufacturing of synthetic APIs; Hydrogenation and Grignard reactions are the most popular types of reactions offered by players
Case In Point: Contract research service providers cater to the needs related to process development and small scale synthesis of APIs based on HEC / hazardous chemistry
In the long-term, the projected opportunity is anticipated to be worth USD 29 billion by 2030; the opportunity is anticipated to be well distributed across companies of varying sizes, scale of operation and geographies
For more information, please visit https://www.rootsanalysis.com/reports/high-energy-chemistry.html
Table of Contents
1. PREFACE
1.1. Scope of the Report
1.2. Research Methodology
1.3. Chapter Outlines
2. EXECUTIVE SUMMARY
3. INTRODUCTION
3.1. Chapter Overview
3.2. Overview of High Energy Chemistry (HEC) / Hazardous Chemistry for Small Molecule API Manufacturing
3.3. Low Temperature / Cryogenic Chemistry
3.3.1. Reaction Conditions
3.3.2. Advantages
3.3.3. Affiliated Production Processes
3.3.4. Other Specific Requirements / Equipment
3.3.5. List of Reactions
3.4. High Temperature Chemistry
3.4.1. Reaction Conditions
3.4.2. Advantages
3.4.3. Affiliated Production Processes
3.4.4. Other Specific Requirements / Equipment
3.4.5. List of Reactions
3.5. High Pressure Chemistry
3.5.1. Reaction Conditions
3.5.2. Advantages
3.5.3. Affiliated Production Processes
3.5.4. Other Specific Requirements / Equipment
3.5.5. List of Reactions
3.6. Need for Outsourcing HEC / Hazardous Chemistry-Based API Manufacturing in the Pharmaceutical Industry
3.7. Shift Towards Continuous Flow Chemistry
4. CASE STUDY: COMPARISON OF SMALL MOLECULES AND LARGE MOLECULES
4.1. Chapter Overview
4.2. Small Molecule and Large Molecule Drugs / Therapies
4.2.1. Comparison of Key Characteristics
4.2.2. Comparison of Manufacturing Processes
4.2.3. Comparison of Key Manufacturing-related Challenges
4.3 HEC / Hazardous Chemistry for Small Molecule Manufacturing
5. CURRENT MARKET LANDSCAPE
5.1. Chapter Overview
5.2. API Manufacturers with HEC Capability: Overall Market Landscape
5.2.1. Analysis by Type of Manufacturing Service
5.2.2. Analysis by Year of Establishment
5.2.3. Analysis by Company Size
5.2.4. Analysis by Geographical Location
5.2.5. Analysis by Location of Manufacturing Facilities
5.2.6. Analysis by General Pharmaceutical Manufacturing Portfolio
5.2.6.1. Analysis by Type of Product (API and FDF)
5.2.6.2. Analysis by HPAPI Manufacturing Capability
5.2.7. Analysis by Type of HEC Services Offered
5.2.7.1. Analysis by Temperature Conditions Handled
5.2.7.2. Analysis by Pressure Conditions Handled
5.2.8. Analysis by Availability of Continuous Flow Technology
6. REGIONAL CAPABILITY ASSESSMENT
6.1. Chapter Overview
6.2. List of Manufacturing Facilities having HEC Capabilities
6.2.1. Manufacturing Facilities in North America
6.2.1.1. Geographical Map Representation: Manufacturing Facilities with HEC Capabilities in North America
6.2.1.2. Analysis by Type of Reaction Conditions Handled
6.2.1.3. Analysis by Range of Reaction Conditions Handled
6.2.1.3.1. Analysis by Temperature Conditions Handled
6.2.1.3.2. Analysis by Pressure Conditions Handled
6.2.2. Manufacturing Facilities in Europe
6.2.2.1. Geographical Map Representation: Manufacturing Facilities with HEC Capabilities in Europe
6.2.2.2. Analysis by Type of Reaction Conditions Handled
6.2.2.3. Analysis by Range of Reaction Conditions Handled
6.2.2.3.1. Analysis by Temperature Conditions Handled
6.2.2.3.2. Analysis by Pressure Conditions Handled
6.2.3. Manufacturing Facilities in Asia Pacific
6.2.3.1. Geographical Map Representation: Manufacturing Facilities with HEC Capabilities in Asia Pacific
6.2.3.2. Analysis by Type of Reaction Conditions Handled
6.2.3.3. Analysis by Range of Reaction Conditions Handled
6.2.3.3.1. Analysis by Temperature Conditions Handled
6.2.3.3.2. Analysis by Pressure Conditions Handled
6.3. Regional Capability Assessment Summary
7. COMPANY COMPETITIVENESS ANALYSIS
7.1. Chapter Overview
7.2. Key Parameters
7.3. Methodology
7.4. Competitiveness Analysis: Companies in North America
7.4.1. Companies in North America Offering HEC-based Contract Manufacturing
7.4.2. Companies in North America Offering HEC-based Custom Manufacturing
7.5. Competitiveness Analysis: Companies in Europe
7.5.1. Companies in Europe Offering HEC-based Contract Manufacturing
7.5.2. Companies in Europe Offering HEC-based Custom Manufacturing
7.6. Competitiveness Analysis: Companies in Asia Pacific
7.6.1. Companies in Asia Pacific Offering HEC-based Contract Manufacturing
7.6.2. Companies in Asia Pacific HEC-based Offering Custom Manufacturing
7.7. Spider Web Analysis
8. COMPANY PROFILES
8.1. Chapter Overview
8.2. AGC Chemicals
8.2.1. Company Overview
8.2.2. Financial Information
8.2.3. Manufacturing Facility Details
8.2.4. HEC Specific Service Offerings
8.2.5. Recent Developments and Future Outlook
8.3. Beijing Mediking Biopharm
8.3.1 Company Overview
8.3.2 Manufacturing Facility Details
8.3.3 HEC Specific Service Offerings
8.3.4. Recent Developments and Future Outlook
8.4. Cambrex
8.4.1. Company Overview
8.4.2. Financial Information
8.4.3. Manufacturing Facility Details
8.4.4. HEC Specific Service Offerings
8.4.5. Recent Developments and Future Outlook
8.5. Corden Pharma
8.5.1 Company Overview
8.5.2 Manufacturing Facility Details
8.5.3 HEC Specific Service Offerings
8.5.4 Recent Developments and Future Outlook
8.6. Evonik
8.6.1. Company Overview
8.6.2. Financial Information
8.6.3. Manufacturing Facility Details
8.6.4. HEC Specific Service Offerings
8.6.5. Recent Developments and Future Outlook
8.7. Hovione
8.7.1. Company Overview
8.7.2. Manufacturing Facility Details
8.7.3. HEC Specific Service Offerings
8.7.4. Recent Developments and Future Outlook
8.8. Patheon
8.8.1. Company Overview
8.8.2. Manufacturing Facility Details
8.8.3. HEC Specific Service Offerings
8.8.4. Recent Developments and Future Outlook
8.9. PCI Synthesis
8.9.1. Company Overview
8.9.2. Manufacturing Facility Details
8.9.3. HEC Specific Service Offerings
8.9.4. Recent Developments and Future Outlook
8.10. Siegfried
8.10.1. Company Overview
8.10.2. Manufacturing Facility Details
8.10.3. HEC Specific Service Offerings
8.10.4. Financial Information
8.10.5. Recent Developments and Future Outlook
9. CASE STUDY I: SYNTHESIS REACTION PORTFOLIO OF COMPANIES
9.1. Context and Background
9.2. Reaction Portfolios of API Manufacturers with HEC Capabilities
9.2.1. Analysis by Most Popular Reactions
9.2.1.1. Most Popular Reactions: Portfolio of Large Players
9.2.1.2. Most Popular Reactions: Portfolio of Mid-sized Players
9.2.1.3. Most Popular Reactions: Portfolio of Small Players
9.2.1.4. Most Popular Reactions: Portfolio of Other Players
9.2.2. Analysis by Moderately Popular Reactions
9.2.2.1. Moderately Popular Reactions: Portfolio of Large Players
9.2.2.2. Moderately Popular Reactions: Portfolio of Mid-sized Players
9.2.2.3. Moderately Popular Reactions: Portfolio of Small Players
9.2.2.4. Moderately Popular Reactions: Portfolio of Other Players
9.2.3. Analysis by Less Popular Reactions
9.2.3.1. Less Popular Reactions: Portfolio of Large Players
9.2.3.2. Less Popular Reactions: Portfolio of Mid-sized Players
9.2.3.3. Less Popular Reactions: Portfolio of Small Players
9.2.3.4. Less Popular Reactions: Portfolio of Other Players
9.2.4 Analysis by Least Popular Reactions
10. CASE STUDY II: INNOVATION MAPPING IN HEC MARKET
10.1. Context and Background
10.2. HEC-based Contract Research and Custom Synthesis Service Providers: Overall Market Landscape
10.2.1. Analysis by Year of Establishment
10.2.2. Analysis by Company Size
10.2.3. Analysis by Geographical Location
10.2.4. Analysis by HEC Conditions Handled
10.2.5. Analysis by Availability of Continuous Flow Technology
10.2.6. Company Competitiveness Analysis
11. MARKET FORECAST
11.1. Chapter Overview
11.2. Forecast Methodology and Key Assumptions
11.3. Global HEC-based API Manufacturing Services Market, 2020-2030
11.4. HEC-based API Manufacturing Services Market: Distribution by Region, 2020-2030
11.4.1. HEC-based API Manufacturing Services Market in North America
11.4.2. HEC-based API Manufacturing Services Market in Europe
11.4.3. HEC-based API Manufacturing Services Market in Asia Pacific
11.4.4. HEC-Based API Manufacturing Services Market in Rest of the World
11.5. HEC-based API Manufacturing Services Market: Distribution by Reaction Conditions, 2020-2030
11.5.1. High Temperature Chemistry-based API Manufacturing Services Market, 2020-2030
11.5.1.1. High Temperature Chemistry-based API Manufacturing Services Market: Distribution by Region, 2020-2030
11.5.1.1.1. High Temperature Chemistry-based API Manufacturing Services Market in North America, 2020-2030
11.5.1.1.2. High Temperature Chemistry-based API Manufacturing Services Market in Europe, 2020-2030
11.5.1.1.3. High Temperature Chemistry-based API Manufacturing Services Market in Asia Pacific, 2020-2030
11.5.1.1.4. High Temperature Chemistry-based API Manufacturing Services Market in Rest of the World, 2020-2030
11.5.2. Low Temperature / Cryogenic Chemistry-based API Manufacturing Services Market, 2020-2030
11.5.2.1. Low Temperature / Cryogenic Chemistry-based API Manufacturing Services Market: Distribution by Region, 2020-2030
11.5.2.1.1. Low Temperature / Cryogenic Chemistry-based API Manufacturing Services Market in North America, 2020-2030
11.5.2.1.2. Low Temperature / Cryogenic Chemistry-based API Manufacturing Services Market in Europe, 2020-2030
11.5.2.1.3. Low Temperature / Cryogenic Chemistry-based API Manufacturing Services Market in Asia Pacific, 2020-2030
11.5.2.1.4. Low Temperature / Cryogenic Chemistry-based API Manufacturing Services Market in Rest of the World, 2020-2030
11.5.3. High Pressure Chemistry-based API Manufacturing Services Market, 2020-2030
11.5.3.1. High Pressure Chemistry-based API Manufacturing Services Market: Distribution by Region, 2020-2030
11.5.3.1.1. High Pressure Chemistry-based API Manufacturing Services Market in North America, 2020-2030
11.5.3.1.2. High Pressure Chemistry-based API Manufacturing Services Market in Europe, 2020-2030
11.5.3.1.3. High Pressure Chemistry-based API Manufacturing Services Market in Asia Pacific, 2020-2030
11.5.3.1.4. High Pressure Chemistry-based API Manufacturing Services Market in Rest of the World, 2020-2030
11.5.4. Low Pressure Chemistry-based API Manufacturing Services Market, 2020-2030
11.5.4.1. Low Pressure Chemistry-based API Manufacturing Services Market: Distribution by Region, 2020-2030
11.5.4.1.1. Low Pressure Chemistry-based API Manufacturing Services Market in North America, 2020-2030
11.5.4.1.2. Low Pressure Chemistry-based API Manufacturing Services Market in Europe, 2020-2030
11.5.4.1.3. Low Pressure Chemistry-based API Manufacturing Services Market in Asia Pacific, 2020-2030
11.5.4.1.4. Low Pressure Chemistry-based API Manufacturing Services Market in Rest of the World, 2020-2030
12. SWOT ANALYSIS
12.1 Chapter Overview
12.2. Strengths
12.3. Weaknesses
12.4. Opportunities
12.5. Threats
12.6. Concluding Remarks
13. EXECUTIVE INSIGHTS
14. IMPACT OF COVID-19 PANDEMIC ON THE HEC-BASED API MANUFACTURING SERVICES MARKET
14.1. Chapter Overview
14.2. Current Opinions and Recuperative Initiatives of Key Players
14.3. Impact on Future Market Opportunity for Pharmaceutical CMOs Focused on Offering Manufacturing Services for HEC-Based APIs
14.4. Recuperative Strategies for CMO Business
14.4.1. Strategies for Implementation in the Short / Mid Term
14.2.2. Strategies for Implementation in the Long Term
15. CONCLUDING REMARKS
16. APPENDIX 1: TABULATED DATA
17. APPENDIX 2: LIST OF COMPANIES AND ORGANIZATIONS
Contact Details
Gaurav Chaudhary
+1 (415) 800 3415
[email protected]
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