全球生物基丙二醇市场规模（按应用、最终用户、区域范围和预测）

生物基丙二醇市场规模及预测

预计 2024 年生物基丙二醇市场规模将达到 45.1 亿美元，到 2032 年将达到 63.6 亿美元，2026 年至 2032 年的复合年增长率为 4.4%。

生物基丙二醇（bio-PG）是传统丙二醇的可再生替代品。

生物基丙二醇由植物来源糖和植物油等可再生资源生产。

这种 PG 是透过一种称为加氢裂解的过程生产的，其中甘油（它是生物柴油生产的产物或植物来源）在高温高压下暴露于氢气中。

透过这种反应，甘油转化为生质基丙二醇，这是一种比传统丙二醇更永续的选择，因为它来自可再生资源，可以显着减少我们对石化燃料的依赖。

这种方法符合日益增强的环保意识以及更环保、更永续的工业实践的推动。

全球生物基丙二醇市场动态

影响全球生物基丙二醇市场的关键市场动态是：

关键市场驱动因素

永续性议题与环境法规：随着环境永续性意识的不断增强，消费者和政府正在密切关注传统石油基丙二醇 (PG) 生产的影响。石油基 PG 的提取和加工会导致温室气体排放和环境恶化，促使人们转向更永续的替代品。源自植物糖等可再生原料的生物基 PG 已成为更环保的选择，能够有效解决这些问题。旨在减少温室气体排放和改善废弃物管理的日益严格的环境法规，进一步推动了生物基 PG 的采用。这些法规有力案例促使该产业朝着更环保的生产方式迈进，以符合全球永续性目标。

环保产品需求不断增长：永续性趋势推动化妆品、药品、食品饮料等各领域对环保产品的需求不断增长。生物基丙二醇 (PG) 顺应了消费者对永续环保产品日益增长的偏好。加入生物基丙二醇，製造商能够吸引环保意识的消费者，并开发以永续性为重点的产品线。这种需求，加上人们明显转向注重环境影响和增强企业社会责任的产品，正在重塑市场动态。

生物基PG的性能优势：生物基PG因其性能特征与石油基PG相当，在某些情况下甚至更胜一筹而备受认可。生物基PG在维持各种应用所需的基本特性的同时，还具有其他优势，例如更高的纯度和更低的致敏性。这些性能优势使生物基PG成为寻求兼顾永续性和高品质产品的製造商的理想选择。生物基PG的开发不仅满足了传统PG的性能标准，而且还有助于提升整体环境和健康效益。

政府对生物基产业的支持：随着生物基产品的应用日益普及，许多政府正在实施税收优惠、津贴和补贴等扶持政策。此类财政支持旨在减轻向生物基替代品转型的经济负担，并刺激产业创新。透过降低生物基丙烷的生产成本并提高其竞争力，政府政策在鼓励製造商投资和采用生物基解决方案方面发挥关键作用。

技术进步：发酵和生物转化技术的最新进展显着提高了生物基丙二醇的生产效率和成本效益。生产技术的改进提高了产量并降低了成本，使生物基丙二醇的广泛应用成为更可行的选择。这些技术进步不仅扩大了生产能力，还可能降低生物基丙二醇的价格，从而进一步支持其在各行各业的应用。

不断拓展的应用领域：生物基丙二醇 (PG) 正在其传统应用领域之外寻找新的应用，例如在生质塑胶、润滑剂和个人保健产品的生产中发挥新的作用。这种向新领域的多元化拓展拓宽了生物基丙二醇的市场潜力，并带来了进一步的成长机会。随着各行各业日益寻求可持续的解决方案，生物基丙二醇有望在各种应用中发挥关键作用，并为更永续的循环经济做出贡献。

主要问题

高成本：生物基丙二醇的生产成本高于传统的石油基丙二醇。这主要是因为生产生物基丙二醇需要先进的技术和专门的製程。对于利润微薄的製造商来说，生物基丙二醇的高成本是其应用的一大障碍。高昂的价格分布限制了它的吸引力，尤其是对于那些对成本波动敏感、不愿投资更昂贵替代品的公司而言。

生产能力有限：与现有的传统丙二醇生产基础设施相比，生物基丙二醇设施面临产能限制。生物基丙二醇的生产规模相对较小，这可能导致供应链挑战，例如难以满足大规模需求。这种产能限制阻碍了生物基丙二醇的广泛应用，造成供应不稳定，并使製造商难以依赖生物基丙二醇作为主要原料。

技术挑战与原料供应：生产生物基PG需要复杂的製程与难以实现的专业技术。另一个挑战是确保可持续原料（例如植物来源糖）的稳定供应。这些原料的供应和品质可能存在波动，从而影响生物基PG生产的稳定性和可扩展性。克服这些技术挑战并确保可靠的原料供应对于生物基PG的长期可行性至关重要。

缺乏认知和基础设施：消费者和製造商对生物基丙二醇的益处和用途缺乏认知。这种认知不足可能会减缓生物基丙二醇的普及，因为相关人员在不清楚其益处的情况下，不愿放弃现有的石油基替代品。此外，可持续原料的收集和加工所需的基础设施在各个地区并不统一，这使得供应链变得复杂，并限制了生物基丙二醇在某些地区的使用。

严格的法规和认证：生物基丙二醇必须符合各种法规和认证，以确保其安全性和环境永续性。获得这些认证的过程漫长而复杂，对于希望将生物基丙二醇推向市场的製造商来说，这是一个挑战。满足监管要求并获得必要的批准可能会延迟产品上市，并推高生物基丙二醇的整体成本。

来自现有企业的竞争：传统丙二醇市场由拥有完善生产基础设施和广泛分销网络的现有企业主导。由于现有体系的惯性以及转向新技术所需的巨额投资，这些现有企业可能不愿采用生物基替代品。因此，生物基丙二醇将面临那些根深蒂固、不愿改变的传统丙二醇企业的激烈竞争。

主要趋势

注重成本竞争力：製造商正在积极寻求提升生物基丙二醇 (PG) 成本竞争力的策略。这包括创新发酵技术，透过提高效率和产量来降低生产成本。此外，优化原料利用率可以最大限度地减少废弃物，并降低原材料相关成本。随着产能的扩大，规模经济将进一步降低成本，使生物基 PG 更易于获取，并比传统的石油基 PG 更具竞争力。

生物炼製厂整合：将生物基丙二醇生产整合到现有的生物炼製厂。这种方法利用现有的生质燃料生产基础设施和工艺，并能够有效利用产品和废弃物。将生物基丙二醇纳入生物炼製厂运营，製造商可以提高整体製程效率、降低成本并增强营运的永续性。这种整合还能最大限度地提高资源利用率并减少废弃物，有助于建立更循环、更永续的生产模式。

第二代原料的开发：人们越来越重视第二代原料的开发。这些替代品包括非作物、农业废弃物以及污水处理流程产生的产品。使用此类原料不仅可以减少与粮食生产的竞争，还能透过减少对传统农业资源的依赖来提高生物基丙二醇的永续性。第二代原料的转变是使生物基丙二醇更环保和资源高效的重要一步。

拓展新应用：除了传统应用之外，生物基丙二醇正被探索用于各种新用途。这些用途包括生物基聚氨酯泡沫和高性能润滑剂的配方，以及作为生质燃料添加剂的潜力。这些新应用的拓展凸显了生物基丙二醇的多功能性和潜力，并为各行各业的成长和创新提供了机会。透过多样化应用，生物基丙二醇可以满足更广泛的市场需求，并吸引新的客户群。

整个供应链的透明度和永续性：人们越来越重视确保整个生物基丙二醇供应链的透明度和永续性。这包括追踪原材料来源、最大限度地减少製造过程对环境的影响，以及进行生命週期评估，以证明生物基丙二醇真正的永续性优势。透过采取这些措施，製造商可以与消费者和相关人员建立信任，并凸显生物基丙二醇相对于传统替代品的环境和社会效益。

区域生产中心：随着生物基丙二醇需求的持续成长，区域生产中心可能会应运而生。这些中心将满足当地市场需求，降低运输成本，并应对特定地区的原材料供应挑战。发展区域生产中心可以提高供应链效率，促进区域经济发展，并确保更稳定、更快速的生物基丙二醇供应。分散生产基地将使製造商能够更好地满足当地需求，并更有效地解决物流挑战。

目录

第一章 引言

• 市场定义
• 市场区隔
• 调查方法

第二章执行摘要

• 主要发现
• 市场概览
• 市集亮点

第三章市场概述

• 市场规模和成长潜力
• 市场趋势
• 市场驱动因素
• 市场限制
• 市场机会
• 波特五力分析

第四章生物基丙二醇市场（依应用）

• 溶剂
• 化学中间体
• 不饱和聚酯树脂
• 防冻剂/冷却剂

第五章。生物基丙二醇市场（依最终用户）

• 化妆品
• 製药
• 饮食

第六章区域分析

• 北美洲
• 美国
• 加拿大
• 墨西哥
• 欧洲
• 英国
• 德国
• 法国
• 义大利
• 亚太地区
• 中国
• 日本
• 印度
• 澳洲
• 拉丁美洲
• 巴西
• 阿根廷
• 智利
• 中东和非洲
• 南非
• 沙乌地阿拉伯
• 阿拉伯聯合大公国

第七章市场动态

• 市场驱动因素
• 市场限制
• 市场机会
• COVID-19 市场影响

第八章 竞争态势

• 主要企业
• 市场占有率分析

第九章 公司简介

• DuPont（DuPont de Nemours, Inc.）
• Braskem SA
• PTT Global Chemical Public Company Limited
• Dow Inc.
• Metabolic Explorer
• BioAmber Inc.
• Reverdia
• Susterra Inc.
• Corbion Purac
• Myriant Corporation

第十章 市场展望与机会

• 新兴技术
• 未来市场趋势
• 投资机会

第十一章 市场展望 附录

• 简称列表
• 来源和参考文献

Biobased Propylene Glycol Market Size And Forecast

Biobased Propylene Glycol Market size was valued at USD 4.51 Billion in 2024 and is projected to reach USD 6.36 Billion by 2032, growing at a CAGR of 4.4% from 2026 to 2032.

Biobased propylene glycol (bio-based PG) is a renewable alternative to traditional propylene glycol.

Bio-based propylene glycol is produced from renewable resources, such as plant-based sugars or vegetable oils.

This form of PG is created through a process known as hydrogenolysis. In this process, glycerin, which is a byproduct of biodiesel production or derived from plant materials, is subjected to hydrogen under high temperature and pressure.

This reaction converts glycerin into bio-based propylene glycol. Bio-based PG offers a more sustainable alternative to traditional PG, as it is derived from renewable sources and can significantly reduce reliance on fossil fuels.

This method aligns with increasing environmental awareness and the push towards greener, more sustainable industrial practices.

Global Biobased Propylene Glycol Market Dynamics

The key market dynamics that are shaping the global Biobased Propylene Glycol Market include:

Key Market Drivers

Sustainability Concerns and Environmental Regulations: With increasing awareness about environmental sustainability, consumers and governments are scrutinizing the impact of traditional, petroleum-based propylene glycol (PG) production. The extraction and processing of petroleum-based PG contribute to greenhouse gas emissions and environmental degradation, prompting a shift towards more sustainable alternatives. Bio-based PG, derived from renewable feedstocks like plant sugars, emerges as a greener option, addressing these concerns effectively. Stricter environmental regulations aimed at reducing greenhouse gas emissions and improving waste management further incentivize the adoption of bio-based PG. These regulations create a compelling case for industries to transition to more eco-friendly production practices, aligning with global sustainability goals.

Growing Demand for Eco-Friendly Products: The trend towards sustainability has led to a heightened demand for eco-friendly products across various sectors, including cosmetics, pharmaceuticals, and food and beverages. Bio-based PG aligns with this growing consumer preference for sustainable and environmentally responsible products. By incorporating bio-based PG into their formulations, manufacturers can appeal to eco-conscious consumers and develop product lines that emphasize sustainability. This demand is reshaping market dynamics, with a clear shift towards products that minimize environmental impact and enhance corporate social responsibility.

Performance Benefits of Bio-Based PG: Bio-based PG is recognized for its ability to deliver performance characteristics comparable to, and in some cases exceeding, those of petroleum-based PG. It maintains the essential properties needed for various applications while offering additional benefits such as improved purity and reduced allergen potential. These performance advantages make bio-based PG an appealing choice for manufacturers seeking to balance sustainability with high product quality. The development of bio-based PG not only meets the performance standards of traditional PG but also contributes to overall environmental and health benefits.

Government Support for Bio-Based Industries: Increasing adoption of bio-based products, many governments are implementing supportive measures such as tax incentives, grants, and subsidies. These financial supports are designed to reduce the economic burden of transitioning to bio-based alternatives and stimulate innovation in the industry. By lowering production costs and making bio-based PG more competitive, government policies play a crucial role in encouraging manufacturers to invest in and adopt bio-based solutions.

Technological Advancements: Recent advancements in fermentation and bioconversion technologies have significantly improved the efficiency and cost-effectiveness of bio-based PG production. Enhanced production techniques have led to increased output and reduced costs, making bio-based PG a more viable option for widespread use. These technological innovations are not only expanding production capacities but also potentially lowering the prices of bio-based PG, further driving its adoption in various industries.

Expanding Applications: Bio-based PG is finding applications beyond its traditional uses, with emerging roles in the production of bioplastics, lubricants, and personal care products. This diversification into new sectors broadens the market potential for bio-based PG and opens up additional growth opportunities. As industries increasingly seek sustainable solutions, bio-based PG is poised to play a key role in various applications, contributing to a more sustainable and circular economy.

Key Challenges

Higher Cost: High cost for the production of bio-based propylene glycol compared to the traditional petroleum-based PG. This is largely due to the advanced technologies and specialized processes required for bio-based PG production. For manufacturers operating with tight profit margins, the elevated cost of bio-based PG is a significant barrier to adoption. The higher price point limits its appeal, particularly for companies that are sensitive to cost fluctuations and are reluctant to invest in more expensive alternatives.

Limited Production Capacity: Bio-based PG facilities face constraints in production capacity compared to the well-established infrastructure of traditional PG production. The relatively small scale of bio-based PG production can lead to supply chain challenges, including difficulties in meeting large-scale demand. This limitation in production capacity can hinder the widespread adoption of bio-based PG and create inconsistencies in supply, making it challenging for manufacturers to rely on bio-based PG as a primary ingredient.

Technical Challenges and Feedstock Availability: The production of bio-based PG involves complex processes and specialized technology that is challenging to implement. Additionally, securing a consistent supply of sustainable feedstocks, such as plant-based sugars, presents another hurdle. The availability and quality of these feedstocks can fluctuate, impacting the stability and scalability of bio-based PG production. Overcoming these technical challenges and ensuring a reliable feedstock supply are critical for the long-term viability of bio-based PG.

Lack of Awareness and Infrastructure: Lack of awareness among the consumers and manufacturers regarding the benefits and applications of bio-based PG. This lack of awareness can slow the adoption of bio-based PG, as stakeholders are hesitant to switch from established petroleum-based alternatives without a clear understanding of the advantages. Furthermore, the infrastructure needed to collect and process sustainable feedstocks is not uniformly developed across all regions, complicating the supply chain and limiting the availability of bio-based PG in certain areas.

Stringent Regulations and Certifications: Bio-based PG must adhere to a variety of regulations and certifications to ensure its safety and environmental sustainability. The process of obtaining these certifications can be both lengthy and complex, posing a challenge for manufacturers seeking to introduce bio-based PG to the market. Navigating regulatory requirements and securing the necessary approvals can delay product launches and add to the overall cost of bio-based PG.

Competition from Established Players: The traditional PG market is dominated by established players who benefit from well-developed production infrastructure and extensive distribution networks. These incumbents may be slow to adopt bio-based alternatives due to the inertia of existing systems and the significant investment required to switch to new technologies. As a result, bio-based PG faces stiff competition from traditional PG producers who are entrenched in the market and resistant to change.

Key Trends

Focus on Cost Competitiveness: Manufacturers are actively pursuing strategies to enhance the cost competitiveness of bio-based propylene glycol (PG). This includes innovations in fermentation technologies, which aim to lower production costs by increasing efficiency and yield. Additionally, optimizing feedstock utilization helps to minimize waste and reduce expenses associated with raw materials. As production capacities expand, economies of scale can further drive down costs, making bio-based PG more accessible and competitive compared to traditional petroleum-based PG.

Integration of Biorefineries: The integration of bio-based PG production into existing biorefineries. This approach leverages the infrastructure and processes already in place for biofuel production, allowing for the efficient use of co-products and waste streams. By incorporating bio-based PG into biorefinery operations, manufacturers can improve overall process efficiency, reduce costs, and enhance the sustainability of their operations. This integration also maximizes resource utilization and minimizes waste, contributing to a more circular and sustainable production model.

Development of Second-Generation Feedstocks: The growing emphasis on developing second-generation feedstocks. These alternatives include non-food crops, agricultural waste, and byproducts from wastewater treatment processes. Utilizing such feedstocks not only alleviates competition with food production but also enhances the sustainability of bio-based PG by reducing reliance on conventional agricultural resources. This shift towards second-generation feedstocks represents a significant advancement in making bio-based PG more environmentally friendly and resource-efficient.

Expansion into New Applications: Bio-based PG is being explored for a variety of novel applications beyond its traditional uses. This includes its incorporation into bio-based polyurethane foams, high-performance lubricants, and even as a potential additive in biofuels. The expansion into these new applications highlights the versatility and potential of bio-based PG, offering opportunities for growth and innovation in various industries. By diversifying its applications, bio-based PG can address a broader range of market needs and attract new customer segments.

Transparency and Sustainability Throughout the Supply Chain: The increasing emphasis on ensuring transparency and sustainability throughout the bio-based PG supply chain. This involves tracking the origins of feedstocks, minimizing the environmental impact of production processes, and conducting lifecycle assessments to demonstrate the true sustainability benefits of bio-based PG. By adopting these practices, manufacturers can build trust with consumers and stakeholders, and highlight the environmental and social benefits of bio-based PG compared to traditional alternatives.

Regional Production Hubs: As the demand for bio-based PG continues to grow, regional production hubs are likely to emerge. These hubs will cater to local market needs, reduce transportation costs, and address challenges related to feedstock availability in specific regions. Establishing regional production facilities can improve supply chain efficiency, enhance local economic development, and ensure a more stable and responsive supply of bio-based PG. By decentralizing production, manufacturers can better meet regional demands and navigate logistical challenges more effectively.

Global Biobased Propylene Glycol Market Regional Analysis

Here is a more detailed regional analysis of the global Biobased Propylene Glycol Market:

Asia Pacific

The Asia-Pacific region is poised for significant growth in the global bio-based propylene glycol market, driven by the expansion of end-user industries such as construction, transportation, and marine is a major catalyst.

Increasing usage of bio-based propylene glycol because of its low freezing point. It is an environmentally friendly and sustainable process.

The rapid development of the building and construction sector in emerging countries such as China, India, and South Korea.

As these countries continue to industrialize and urbanize, there is a growing demand for sustainable and bio-based solutions. The rising emphasis on environmental sustainability and stringent regulations on petroleum-based products are pushing industries towards greener alternatives.

Additionally, the pharmaceutical-grade applications of bio-based propylene glycol are seeing increased demand, driven by its use in a range of products from cosmetics to food and beverages.

Large firms are investing in advanced manufacturing technologies to commercialize bio-based chemicals, aiming for long-term sustainability. This trend is creating lucrative market opportunities as companies seek to align with environmental and regulatory standards.

The rising disposable income, evolving consumer preferences, and heightened awareness of the benefits of bio-based products are also contributing to the market's growth in the Asia-Pacific region.

This region's focus on sustainability and environmental responsibility is anticipated to further drive the adoption of bio-based propylene glycol across various industries.

North America

North America is anticipated to witness the fastest growth in the global bio-based propylene glycol market during the forecast period.

The increasing demand for sustainable and eco-friendly products is a key driver, supported by stringent regulations that promote the use of green ingredients.

The region's robust market infrastructure, technological advancements, and presence of key players in bio-based propylene glycol production further strengthen its position.

North America benefits from favorable government policies that incentivize the adoption of environmentally friendly products.

This region is characterized by a growing consumer base that prioritizes sustainability, aligning well with the market's shift toward bio-based alternatives.

Additionally, North America, alongside Europe, is expected to lead the market due to stringent regulations concerning carbon emissions, greenhouse gases, and sustainability initiatives.

The U.S. and Brazil, two significant producers of corn and soy, play a crucial role in securing the raw materials necessary for bio-based feedstock production.

This regional advantage ensures a stable supply chain for bio-based propylene glycol, further supporting North America's market leadership.

The combination of regulatory support, technological innovation, and resource availability positions North America as a pivotal player in the global bio-based propylene glycol market.

Global Biobased Propylene Glycol Market: Segmentation Analysis

The Global Biobased Propylene Glycol Market is segmented on the basis of Application, End-User, And Geography.

Biobased Propylene Glycol Market, By Application

• Solvent
• Chemical Intermediates
• Unsaturated Polyester Resin
• Antifreeze & Coolant

Based on Application, the Global Bio-Based Propylene Glycol Market is bifurcated into Solvents, Chemical Intermediates, Unsaturated Polyester Resin, and Antifreeze & Coolant. The antifreeze & coolant segment showing significant growth in the global bio-based propylene glycol market. Bio-based propylene glycol (PG) is emerging as an environmentally friendly alternative to traditional coolants, aligning with the increasing demand for sustainable products. Unlike conventional coolants derived from petroleum, bio-based PG is made from renewable resources, making it a more eco-conscious choice. In terms of performance, bio-based PG delivers comparable freeze protection and heat transfer properties to those of traditional coolants. This ensures that it meets the essential functional requirements of effective cooling while supporting sustainability goals.

Biobased Propylene Glycol Market, By End-User

• Cosmetics
• Pharmaceuticals
• Food & Beverage

Based on End-User, the Global Bio-Based Propylene Glycol Market is bifurcated into Cosmetics, Pharmaceuticals, and Food & Beverage. The Pharmaceuticals segment showing significant growth in the Global Bio-Based Propylene Glycol Market owing to the increasing demand for bio-based and natural ingredients in the pharmaceutical industry aligns well with the properties of bio-based propylene glycol (PG). Its low toxicity and biocompatibility make bio-based PG an ideal choice for various pharmaceutical applications, where safety and compatibility are crucial. Additionally, stringent regulations within the pharmaceutical sector often favor the use of traceable and sustainable ingredients. Bio-based PG, with its eco-friendly and renewable origins, meets these regulatory requirements, further promoting its adoption in pharmaceutical formulations.

Key Players

The "Global Biobased Propylene Glycol Market" study report will provide valuable insight with an emphasis on the global market including some of the major players such as DuPont (DuPont de Nemours, Inc.), Braskem S.A., PTT Global Chemical Public Company Limited, Dow, Inc., Metabolic Explorer, BioAmber, Inc., Reverdia, Susterra, Inc., Corbion Purac, Myriant Corporation.

Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.

• Global Biobased Propylene Glycol Market Recent Developments
• In January 2023, GreenTech Solutions announced the launch of a game-changing bio-based propylene glycol solution that improves both sustainability and performance. Compared to regular propylene glycol, the new formulation is purer and has a smaller environmental impact, making it popular in the personal care and pharmaceutical industries.
• In April 2023, BioChem Innovations reported the successful creation of a new bio-based propylene glycol generated from renewable biomass sources. The company's innovative production process decreases greenhouse gas emissions and provides cost-effective solutions for a wide range of industrial applications, including food & beverage, automotive, and textiles.
• In June 2023, EcoPure Corporation announced the launch of a game-changing bio-based propylene glycol solution for the HVAC (Heating, Ventilation, and Air Conditioning) industry. The environmentally friendly coolant, marketed as EcoCool PGX, delivers improved thermal efficiency and improves equipment lifespan while complying with strict environmental regulations. This revolutionary innovation is intended to accelerate the global adoption of sustainable cooling systems.

TABLE OF CONTENTS

1. Introduction

• Market Definition
• Market Segmentation
• Research Methodology

2. Executive Summary

• Key Findings
• Market Overview
• Market Highlights

3. Market Overview

• Market Size and Growth Potential
• Market Trends
• Market Drivers
• Market Restraints
• Market Opportunities
• Porter's Five Forces Analysis

4. Biobased Propylene Glycol Market, By Application

• Solvent
• Chemical Intermediates
• Unsaturated Polyester Resin
• Antifreeze & Coolant

5. Biobased Propylene Glycol Market, By End-User

• Cosmetics
• Pharmaceuticals
• Food & Beverage

6. Regional Analysis

• North America
• United States
• Canada
• Mexico
• Europe
• United Kingdom
• Germany
• France
• Italy
• Asia-Pacific
• China
• Japan
• India
• Australia
• Latin America
• Brazil
• Argentina
• Chile
• Middle East and Africa
• South Africa
• Saudi Arabia
• UAE

7. Market Dynamics

• Market Drivers
• Market Restraints
• Market Opportunities
• Impact of COVID-19 on the Market

8. Competitive Landscape

• Key Players
• Market Share Analysis

9. Company Profiles

• DuPont (DuPont de Nemours, Inc.)
• Braskem S.A.
• PTT Global Chemical Public Company Limited
• Dow Inc.
• Metabolic Explorer
• BioAmber Inc.
• Reverdia
• Susterra Inc.
• Corbion Purac
• Myriant Corporation

10. Market Outlook and Opportunities

• Emerging Technologies
• Future Market Trends
• Investment Opportunities

11. Appendix

• List of Abbreviations
• Sources and References