Sustainable Chemicals Global Market Report 2025-2035: The Dawn of a New Era - Sustainable Feedstocks, Green Chemistry, Circular Economy, Electrification and Digitalization


Dublin, Oct. 11, 2024 (GLOBE NEWSWIRE) -- The "Global Market for Sustainable Chemicals 2025-2035" report has been added to ResearchAndMarkets.com's offering.

The new era of chemicals represents a paradigm shift in the chemical industry, driven by the need for sustainability, technological advancements, and changing market demands. This transformation is characterized by a move away from fossil-based feedstocks towards renewable and circular resources, coupled with innovative production methods that minimize environmental impact.

Key aspects of this new era include:

  • Sustainable Feedstocks: Utilization of biomass, CO2, and waste materials as raw materials for chemical production, reducing dependence on fossil resources.
  • Green Chemistry: Application of principles that reduce or eliminate the use and generation of hazardous substances in chemical processes.
  • Circular Economy: Design of chemical products and processes for reuse, recycling, and upcycling, minimizing waste and maximizing resource efficiency.
  • Electrification: Integration of renewable electricity in chemical processes, including electrocatalysis and electrochemical synthesis.
  • Digitalization: Use of AI, machine learning, and advanced analytics to optimize processes and accelerate innovation.

Technology areas covered in this new era include:

  • Biorefining: Converting biomass into a spectrum of valuable chemicals and materials.
  • CO2 Utilization: Capturing and converting CO2 into chemicals, fuels, and materials.
  • Advanced Catalysis: Developing highly selective and efficient catalysts for sustainable processes.
  • Synthetic Biology: Engineering microorganisms to produce chemicals from renewable feedstocks.
  • Flow Chemistry: Continuous manufacturing processes for improved efficiency and control.
  • Additive Manufacturing: 3D printing of chemicals and materials for customized production.
  • Advanced Materials: Developing sustainable, high-performance materials like bioplastics and advanced composites.
  • Green Solvents: Creating bio-based and low-impact solvents to replace harmful traditional solvents.
  • Process Intensification: Designing more compact, efficient, and integrated chemical processes.
  • Waste Valorization: Converting waste streams into valuable chemicals and materials.
  • Artificial Intelligence in Chemical Design: The use of AI and machine learning for molecular design, process optimization, and predictive modeling is becoming a significant market area in chemical innovation.
  • Personalized Chemistry: This includes the development of customized chemicals and materials for personalized medicine, cosmetics, and other consumer products.
  • Quantum Chemistry: Although still emerging, this field uses quantum mechanical principles to develop new materials and chemical processes, potentially revolutionizing various industries.

This new era of chemicals is not just about individual technologies but their integration into holistic, sustainable chemical value chains. It promises to deliver innovative solutions to global challenges while creating new economic opportunities and reducing the environmental footprint of the chemical industry. This report analyzes the sustainable chemicals market, offering insights into trends, technologies, and market opportunities from 2025 to 2035.

Report contents include:

  • Market Drivers and Trends
  • Sustainable Feedstocks and Green Chemistry
  • Circular Economy in the Chemical Industry
  • Emerging Technologies and Manufacturing Processes
    • Electrification of chemical processes
    • Digitalization and Industry 4.0 applications
    • Advanced manufacturing technologies
    • Biorefining and industrial biotechnology
    • CO2 utilization technologies
    • Advanced catalysts
    • Synthetic biology and metabolic engineering
  • Market Segments and Applications:
    • Sustainable materials and polymers
    • Green solvents and process chemicals
    • Sustainable agriculture chemicals
    • Renewable energy technologies
    • Sustainable construction materials
    • Green cosmetics and personal care products
    • Sustainable packaging
    • Eco-friendly paints and coatings
    • Green electronics
    • Sustainable textiles and fibers
    • Alternative fuels and lubricants
    • Pharmaceuticals and healthcare applications
    • Water treatment and purification solutions
    • Carbon capture and utilization products
    • Industrial biotechnology products
    • Advanced materials for 3D printing
  • Regulatory Landscape and Policy Analysis
  • Economic Aspects and Business Models
  • Future Outlook and Emerging Trends
  • Market Forecasts and Data Analysis
  • Company Profiles and Competitive Landscape - profiles of over 1,000 key players in the sustainable chemicals market, analyzing their strategies, products, and market positions, including:
    • Aanika Biosciences
    • ACCUREC-Recycling
    • Aduro Clean Technologies
    • Aemetis
    • Agilyx
    • Agra Energy
    • Air Company
    • Aircela
    • Algenol
    • Allozymes
    • Alpha Biofuels
    • AM Green
    • Amyris
    • Andritz
    • APChemi
    • Apeiron Bioenergy
    • Aperam BioEnergia
    • Aralez Bio
    • Arcadia eFuels
    • ASB Biodiesel
    • Ascend Elements
    • Atmonia
    • Avalon BioEnergy
    • Avantium
    • Avioxx
    • BANiQL
    • BASF
    • BBGI
    • BEE Biofuel
    • Benefuel
    • BIO-FED
    • Bio-Oils
    • Bio2Oil
    • BIOD Energy
    • Biofibre GmbH
    • Biofine Technology
    • Bioform Technologies
    • Biofy
    • BiogasClean
    • Biojet
    • Biokemik
    • BIOLO
    • BioLogiQ
    • Biomatter
    • Biome Bioplastics
    • Bioplastech
    • BioSmart Nano
    • Biovectra
    • Biovox
    • BlockTexx
    • Bloom Biorenewables
    • Blue BioFuels
    • Blue Ocean Closures
    • BlueAlp Technology
    • BOBST
    • Borealis
    • Braskem
    • Braven Environmental
    • Brightmark Energy
    • Brightplus
    • bse Methanol
    • BTG Bioliquids
    • Bucha Bio
    • Buyo
    • Byogy Renewables
    • C-Zero
    • C1 Green Chemicals
    • Caphenia
    • CARAPAC Company
    • Carbiolice
    • Carbios
    • Carbon Collect
    • Carbon Engineering
    • Carbon Infinity
    • Carbon Sink
    • Carbonade
    • CarbonBridge
    • Carbyon
    • Cardia Bioplastics
    • Cargill
    • Cascade Biocatalysts
    • Cassandra Oil
    • Casterra
    • Celanese
    • Cellugy
    • Celtic Renewables
    • CERT Systems
    • CF Industries Holdings
    • Chitose Bio Evolution
    • Cirba Solutions
    • Circla Nordic
    • CJ Biomaterials Inc.
    • CleanJoule
    • Climeworks
    • CNF Biofuel
    • Coastgrass ApS
    • Concord Blue Engineering
    • Constructive Bio
    • Corsair
    • Corumat
    • Coval Energy
    • Cruz Foam
    • Cryotech
    • CuanTec Ltd.
    • Cyclic Materials
    • D-CRBN
    • Daio Paper
    • Danimer Scientific
    • Debut Biotechnology
    • Diamond Green Diesel
    • DIC Corporation
    • DIC Products Inc.
    • Dimensional Energy
    • Dioxide Materials
    • Dioxycle
    • Domsjo Fabriker
    • Dow Inc.
    • DuPont
    • EarthForm
    • Eco Environmental
    • Eco Fuel Technology
    • EcoCeres
    • Ecoshell
    • Eligo Bioscience
    • Enginzyme
    • Enim
    • Enzymit
    • Erebagen
    • EV Biotech
    • eversyn
    • Evolutor
    • FabricNano
    • FlexSea
    • Floreon
    • Gevo
    • Ginkgo Bioworks
    • Heraeus Remloy
    • Hyfe
    • HyProMag
    • Invizyne Technologies
    • JPM Silicon
    • LanzaTech
    • Librec
    • Lygos
    • MagREEsource
    • Mammoth Biosciences
    • Mi Terro
    • NeoMetals
    • Noveon Magnetics
    • Novozymes
    • Origin Materials
    • Phoenix Tailings
    • PlantSwitch
    • Posco
    • Pow.bio
    • Protein Evolution
    • REEtec
    • Rivalia Chemical
    • Samsara Eco
    • SiTration
    • Solugen
    • Synthego
    • Teijin
    • Twist Bioscience
    • Van Heron Labs
    • Verde Bioresins
    • Versalis
    • Xampla

Key Topics Covered:

1 EXECUTIVE SUMMARY
1.1 The Need for a New Era in the Chemical Industry
1.2 Defining the New Era of Chemicals
1.3 Global Drivers and Trends
1.4 The Changing Landscape of the Chemical Industry
1.5 Emerging and Transforming Markets in the New Era of Chemicals

  • Sustainable Agriculture Chemicals
  • Green Cosmetics and Personal Care
  • Sustainable Packaging
  • Eco-friendly Paints and Coatings
  • Alternative Fuels and Lubricants
  • Pharmaceuticals and Healthcare
  • Water Treatment and Purification
  • Carbon Capture and Utilization Products
  • Advanced Materials for 3D Printing
  • Sustainable Mining and Metallurgy

2 FEEDSTOCKS
2.1 Sustainable Feedstocks: The Foundation of the New Era
2.2 Overview of Sustainable Feedstock Options
2.3 Biomass as a Chemical Feedstock
2.4 CO2 as a Carbon Source
2.5 Waste Valorization
2.6 Renewable Hydrogen

3 GREEN CHEMISTRY PRINCIPLES AND APPLICATIONS
3.1 The 12 Principles of Green Chemistry
3.2 Atom Economy and Step Economy in Synthesis
3.3 Solvent Reduction and Green Solvents
3.4 Catalysis for Green Chemistry
3.5 Green Metrics and Life Cycle Assessment in Chemistry

4 CIRCULAR ECONOMY IN THE CHEMICAL INDUSTRY
4.1 Principles of Circular Economy
4.2 Design for Circularity in Chemical Products
4.3 Chemical Recycling Technologies
4.4 Upcycling of Chemical Waste
4.5 Circular Business Models in the Chemical Sector
4.6 Challenges and Opportunities in Implementing Circularity

5 ELECTRIFICATION OF CHEMICAL PROCESSES
5.1 The Role of Renewable Electricity in Chemical Production
5.2 Electrochemical Synthesis
5.3 Plasma Chemistry
5.4 Microwave-Assisted Chemistry
5.5 Integration of Power-to-X Technologies in Chemical Production

6 DIGITALIZATION AND INDUSTRY 4.0 IN CHEMISTRY
6.1 Big Data and Advanced Analytics in Chemical Research
6.2 Artificial Intelligence and Machine Learning Applications
6.3 Digital Twins in Chemical Plant Operations
6.4 Blockchain for Supply Chain Transparency and Traceability
6.5 Cybersecurity Challenges in the Digitalized Chemical Industry

7 ADVANCED MANUFACTURING TECHNOLOGIES
7.1 Continuous Flow Chemistry
7.2 Modular and Distributed Manufacturing
7.3 3D Printing of Chemicals and Materials
7.4 Advanced Process Control and Real-time Monitoring
7.5 Flexible and Adaptable Production Systems

8 BIOREFINDING AND INDUSTRIAL BIOTECHNOLOGY
8.1 Biorefinery Concepts and Configurations
8.2 Lignocellulosic Biomass Processing
8.3 Algal Biorefineries
8.4 Upstream Processing
8.5 Fermentation
8.6 Downstream Processing
8.7 Formulation
8.8 Bioprocess Development
8.9 Analytical Methods
8.10 Scale of Production
8.11 Mode of Operation
8.12 Host Organisms

9 CO2 UTILIZATION TECHNOLOGIES
9.1 Overview
9.2 CO2 non-conversion and conversion technology
9.3 Carbon utilization business models
9.4 Co2 utilization pathways
9.5 Conversion processes
9.6 CO2-derived products
9.7 CO? Utilization in Enhanced Oil Recovery
9.8 Enhanced mineralization

10 ADVANCED CATALYSTS FOR SUSTAINABLE CHEMISTRY
10.1 Overview of biocatalyst technology
10.2 Types of biocatalysts
10.3 Production methods and processes
10.4 Emerging technologies and innovations in biocatalysis
10.5 Companies

11 SYNTHETIC BIOLOGY AND METABOLIC ENGINEERING
11.1 Metabolic engineering
11.2 Gene and DNA synthesis
11.3 Gene Synthesis and Assembly
11.4 Genome engineering
11.5 Protein/Enzyme Engineering
11.6 Synthetic genomics
11.7 Strain construction and optimization
11.8 Smart bioprocessing
11.9 Chassis organisms
11.10 Biomimetics
11.11 Sustainable materials
11.12 Robotics and automation
11.13 Bioinformatics and computational tools
11.14 Xenobiology and expanded genetic alphabets
11.15 Biosensors and bioelectronics
11.16 Feedstocks
11.17 Companies

12 GREEN SOLVENTS AND ALTERNATIVE REACTION MEDIA
12.1 Bio-based Solvents
12.2 Switchable Solvents
12.3 Deep Eutectic Solvents (DES)
12.4 Supercritical Fluids in Industrial Applications
12.5 Solvent-free Reactions and Mechanochemistry
12.6 Solvent Selection Tools and Frameworks
12.7 Companies

13 WASTE VALORIZATION AND RESOURCE RECOVERY
13.1 Municipal Solid Waste to Chemicals
13.2 Agricultural and Food Waste Valorization
13.3 Critical Material Extraction Technology
13.4 Wastewater Treatment and Resource Recovery
13.5 Mining Waste Valorization
13.6 Companies

14 ENERGY EFFICIENCY AND RENEWABLE ENERGY INTEGRATION
14.1 Energy Efficiency Measures in Chemical Plants
14.2 Heat Recovery and Pinch Analysis
14.3 Renewable Energy Sources in Chemical Production
14.4 Energy Storage Technologies for Process Industries
14.5 Combined Heat and Power (CHP) Systems
14.6 Industrial Symbiosis and Energy Integration

15 SAFETY AND SUSTAINABILITY ASSESSMENT
15.1 Green Chemistry Metrics and Sustainability Indicators
15.2 Life Cycle Assessment (LCA) in Chemical Processes
15.3 Safety by Design Principles
15.4 Risk Assessment and Management in New Chemical Technologies
15.5 Environmental Impact Assessment
15.6 Social and Ethical Considerations in the New Era of Chemicals

16 REGULATIONS AND POLICY
16.1 Global Chemical Regulations and Their Evolution
16.2 Environmental Policies Driving Sustainable Chemistry
16.3 Incentives and Support Mechanisms for Green Chemistry
16.4 Challenges in Regulating Emerging Technologies
16.5 International Cooperation and Harmonization Efforts
16.6 The Role of Industry Associations and Standardization Bodies

17 MARKETS AND PRODUCTS
17.1 Sustainable Materials and Polymers
17.2 Sustainable Agriculture Chemicals
17.3 Sustainable Construction Materials
17.4 Green Cosmetics and Personal Care
17.5 Sustainable Packaging
17.6 Eco-friendly Paints and Coatings
17.7 Green Electronics
17.8 Sustainable Textiles and Fibers
17.9 Alternative Fuels and Lubricants
17.10 Pharmaceuticals and Healthcare
17.11 Advanced Materials for 3D Printing
17.12 Artificial Intelligence in Chemical Design
17.13 Quantum Chemistry Applications

18 ECONOMIC ASPECTS AND BUSINESS MODELS
18.1 Cost Competitiveness of Sustainable Chemical Technologies
18.2 Investment Trends in Green Chemistry
18.3 New Business Models in the Circular Economy
18.4 Market Dynamics and Consumer Preferences
18.5 Intellectual Property Considerations

19 FUTURE OUTLOOK AND EMERGING TRENDS
19.1 Convergence of Bio, Nano, and Information Technologies
19.2 Quantum Computing in Chemical Research and Development
19.3 Space-based Manufacturing of Chemicals
19.4 Artificial Photosynthesis and Solar Fuels
19.5 Personalized and On-demand Chemical Manufacturing
19.6 The Role of Chemistry in Achieving Net-Zero Emissions
19.7 Green Chemistry Advancements
19.8 Specialty Chemicals Evolution
19.9 Circular Economy Solutions
19.10 Artificial Intelligence and Digitalization Impact
19.11 Quantum Chemistry Prospects

For more information about this report visit https://www.researchandmarkets.com/r/poaeka

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