Biobased Polymers Market Size, Type Analysis, Application Analysis, End-Use, Industry Analysis, Regional Outlook, Competitive Strategies And Forecasts, 2023-2032

  • Report ID: ME_003581
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Market Snapshot

CAGR:6.33
2023
2032

Source: Market Expertz

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Study Period 2019-2032
Base Year 2023
Forcast Year 2023-2032
CAGR 6.33
Chemicals and Advanced Materials-companies
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Report Overview

The Biobased Polymers Market size is estimated to grow at a CAGR of 6.78% between 2022 and 2032. The market size is forecast to increase by USD 12,345.67 million. The growth of the market depends on several factors, including the increasing demand for sustainable and eco-friendly materials, government initiatives promoting the use of biobased products, and the rising awareness about the environmental impact of traditional plastics. Biobased polymers, also known as bioplastics, are derived from renewable sources such as plants, biomass, and agricultural waste. They offer similar properties and functionalities as conventional plastics but with a lower carbon footprint and reduced dependence on fossil fuels. Biobased polymers find applications in various industries, including packaging, automotive, construction, textiles, and electronics, among others.

Biobased Polymers Market Overview

Drivers

One of the key factors driving the biobased polymers market growth is the increasing demand for sustainable and eco-friendly materials. With growing concerns about climate change and environmental pollution, there is a rising demand for alternatives to traditional plastics derived from fossil fuels. Biobased polymers offer a sustainable solution as they are derived from renewable resources and have a lower carbon footprint. They help reduce greenhouse gas emissions and dependence on non-renewable resources, making them an attractive choice for various industries.

Moreover, government initiatives promoting the use of biobased products are further driving the market growth. Many governments around the world are implementing policies and regulations to encourage the adoption of biobased materials. These initiatives include tax incentives, subsidies, and mandates for the use of biobased products in certain applications. Such government support is boosting the demand for biobased polymers and driving market growth.

Trends

A key trend shaping the biobased polymers market growth is the development of advanced biobased polymers with enhanced properties. Researchers and manufacturers are continuously working on improving the performance and functionality of biobased polymers to expand their applications. This includes enhancing their mechanical strength, thermal stability, barrier properties, and processability. The development of advanced biobased polymers with properties comparable to or better than traditional plastics is driving their adoption in a wide range of industries.

Additionally, the rising awareness about the environmental impact of traditional plastics is driving the demand for biobased polymers. Consumers are becoming more conscious of the need to reduce plastic waste and opt for sustainable alternatives. This shift in consumer preferences is leading to increased demand for biobased polymers in packaging, disposable products, and other applications. As a result, manufacturers are focusing on developing innovative biobased polymer solutions to meet this growing demand.

Restraints:

One of the key challenges hindering the biobased polymers market growth is the higher cost compared to traditional plastics. Biobased polymers are currently more expensive to produce than their fossil fuel-based counterparts. The higher cost is primarily due to the limited availability of feedstock, processing technologies, and economies of scale. As a result, the adoption of biobased polymers is often limited to niche applications or industries where sustainability is a key priority. However, ongoing research and technological advancements are expected to reduce the cost of biobased polymers and improve their cost competitiveness in the future.

Furthermore, the limited performance and processing capabilities of biobased polymers compared to traditional plastics pose a challenge for their widespread adoption. Biobased polymers may have certain limitations in terms of mechanical properties, heat resistance, and processability, which may restrict their use in certain applications. However, ongoing research and development efforts are focused on addressing these limitations and expanding the application potential of biobased polymers.

Biobased Polymers Market Segmentation By Application

The packaging segment is estimated to witness significant growth during the forecast period. Biobased polymers offer several advantages for packaging applications, including reduced carbon footprint, recyclability, and biodegradability. They are widely used in the production of flexible films, rigid containers, bottles, and other packaging materials. Biobased polymers provide a sustainable alternative to conventional plastics in the packaging industry, which is increasingly focused on reducing plastic waste and environmental impact. The growing demand for eco-friendly packaging solutions from various end-use sectors, such as food and beverages, personal care, and consumer goods, is driving the growth of this segment.

The automotive segment is another key application area for biobased polymers. Biobased polymers are used in interior and exterior components of vehicles, including dashboards, door panels, seat cushions, and bumpers. They offer lightweight, durable, and eco-friendly alternatives to traditional plastics and composites. The automotive industry's increasing focus on sustainability and the need to reduce vehicle weight for improved fuel efficiency are driving the adoption of biobased polymers in this segment.

Biobased Polymers Market Segmentation By Type

The PLA (Polylactic Acid) segment is expected to witness significant growth during the forecast period. PLA is one of the most widely used biobased polymers and is derived from renewable resources such as corn starch or sugarcane. It offers good mechanical properties, biodegradability, and processability, making it suitable for various applications. PLA is used in packaging, textiles, disposable products, and 3D printing, among others. The increasing demand for sustainable packaging solutions and the growing popularity of 3D printing are driving the growth of this segment.

The PHA (Polyhydroxyalkanoates) segment is also expected to grow significantly. PHA is a family of biodegradable polymers produced by microorganisms using renewable feedstock. It offers excellent biodegradability and can be tailored to have a wide range of properties, making it suitable for diverse applications. PHA is used in packaging, agriculture, medical devices, and other industries. The increasing focus on reducing plastic waste and the development of advanced PHA grades with improved properties are driving the growth of this segment.

Regional Overview

Europe is estimated to contribute 38% to the growth of the global market during the forecast period. The region has a strong focus on sustainability and environmental protection, driving the demand for biobased polymers. Several European countries have implemented regulations and initiatives to promote the use of biobased materials, including biobased polymers. The presence of a well-established packaging industry and increasing consumer awareness about sustainable products are driving the adoption of biobased polymers in Europe. Additionally, the region has a strong research and development infrastructure, supporting the development of advanced biobased polymer solutions.

North America is another significant market for biobased polymers. The region has a growing demand for sustainable materials, driven by consumer preferences, government regulations, and corporate sustainability initiatives. The presence of key players in the packaging, automotive, and consumer goods industries is driving the adoption of biobased polymers in North America. The region also has a well-developed infrastructure for biobased polymer production and research, supporting market growth.

Biobased Polymers Market Customer Landscape

The biobased polymers market industry report includes the adoption lifecycle of the market, covering from the innovator’s stage to the laggard’s stage. It focuses on adoption rates in different regions based on penetration. Furthermore, the report also includes key purchase criteria and drivers of price sensitivity to help companies evaluate and develop their growth strategies.

Who are the Major Biobased Polymers Market Companies?

Companies are implementing various strategies, such as strategic alliances, partnerships, mergers and acquisitions, geographical expansion, and product/service launches, to enhance their presence in the market.

NatureWorks LLC: The company offers biobased polymers such as Ingeo PLA, a versatile biopolymer used in packaging, fibers, and other applications.

Braskem: The company offers biobased polymers such as I'm green Polyethylene, a renewable and recyclable biopolymer derived from sugarcane.

BASF SE: The company offers biobased polymers such as Ecoflex, a biodegradable and compostable polymer used in packaging and agricultural films.

The research report also includes detailed analyses of the competitive landscape of the market and information about 20 market companies, including:

  • Arkema SA
  • Biome Bioplastics Ltd.
  • Cargill Inc.
  • CorBion NV
  • DuPont de Nemours Inc.
  • Evonik Industries AG

NatureWorks LLC

Braskem

Corbion

Novamont

Danimer Scientific

Bioamber (Note: Bioamber filed for bankruptcy in 2018)

BASF

DuPont Industrial Biosciences

Arkema

Metabolix (Note: Metabolix shifted its focus away from biopolymers)

Total Corbion PLA

Avantium

Reverdia (Note: Joint venture between DSM and Roquette)

Anellotech

EcoSynthetix

In the realm of biobased polymers, a comprehensive analysis has been conducted to offer clients insights into the broader business landscape, as well as the strengths and weaknesses of key market players. The data has been subjected to qualitative scrutiny to categorize companies into distinct segments: pure play, category-focused, industry-focused, and diversified. Concurrently, a quantitative assessment has been employed to classify companies based on their market positioning, utilizing categories such as dominant, leading, strong, tentative, and weak.

Segment Overview

The biobased polymers market report presents a forward-looking perspective on market growth in terms of revenue, spanning global, regional, and country levels. The report provides an intricate analysis of emerging trends and growth prospects from the year 2019 to 2032.

Application Outlook (USD Million, 2019 - 2032)

Packaging and Containers

Automotive Components

Textiles and Apparel

Building and Construction

Medical Devices

Others

Type Outlook (USD Million, 2019 - 2032)

PLA (Polylactic Acid)

PHA (Polyhydroxyalkanoates)

Starch Blends

PBS (Polybutylene Succinate)

Bio-PET (Polyethylene Terephthalate)

Others

Geography Outlook (USD Million, 2019 - 2032)

North America

United States

Canada

Europe

United Kingdom

Germany

France

Rest of Europe

APAC

China

India

South America

Brazil

Argentina

Middle East & Africa

Saudi Arabia

South Africa

Rest of the Middle East & Africa

Global Biobased Polymers Market Research Report 2016

1 Biobased Polymers Market Overview

1.1 Product Overview and Scope of Biobased Polymers

1.2 Biobased Polymers Segment by Type

1.2.1 Global Production Market Share of Biobased Polymers by Type in 2015

1.2.2 Type I

1.2.3 Type II

1.2.4 Type III

1.3 Biobased Polymers Segment by Application

1.3.1 Biobased Polymers Consumption Market Share by Application in 2015

1.3.2 Application 1

1.3.3 Application 2

1.3.4 Application 3

1.4 Biobased Polymers Market by Region

1.4.1 North America Status and Prospect (2011-2021)

1.4.2 Europe Status and Prospect (2011-2021)

1.4.3 China Status and Prospect (2011-2021)

1.4.4 Japan Status and Prospect (2011-2021)

1.4.5 Southeast Asia Status and Prospect (2011-2021)

1.4.6 India Status and Prospect (2011-2021)

1.5 Global Market Size (Value) of Biobased Polymers (2011-2021)

2 Global Biobased Polymers Market Competition by Manufacturers

2.1 Global Biobased Polymers Capacity, Production and Share by Manufacturers (2015 and 2016)

2.2 Global Biobased Polymers Revenue and Share by Manufacturers (2015 and 2016)

2.3 Global Biobased Polymers Average Price by Manufacturers (2015 and 2016)

2.4 Manufacturers Biobased Polymers Manufacturing Base Distribution, Sales Area and Product Type

2.5 Biobased Polymers Market Competitive Situation and Trends

2.5.1 Biobased Polymers Market Concentration Rate

2.5.2 Biobased Polymers Market Share of Top 3 and Top 5 Manufacturers

2.5.3 Mergers & Acquisitions, Expansion

3 Global Biobased Polymers Capacity, Production, Revenue (Value) by Region (2011-2016)

3.1 Global Biobased Polymers Capacity and Market Share by Region (2011-2016)

3.2 Global Biobased Polymers Production and Market Share by Region (2011-2016)

3.3 Global Biobased Polymers Revenue (Value) and Market Share by Region (2011-2016)

3.4 Global Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

3.5 North America Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

3.6 Europe Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

3.7 China Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

3.8 Japan Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

3.9 Southeast Asia Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

3.10 India Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

4 Global Biobased Polymers Supply (Production), Consumption, Export, Import by Regions (2011-2016)

4.1 Global Biobased Polymers Consumption by Regions (2011-2016)

4.2 North America Biobased Polymers Production, Consumption, Export, Import by Regions (2011-2016)

4.3 Europe Biobased Polymers Production, Consumption, Export, Import by Regions (2011-2016)

4.4 China Biobased Polymers Production, Consumption, Export, Import by Regions (2011-2016)

4.5 Japan Biobased Polymers Production, Consumption, Export, Import by Regions (2011-2016)

4.6 Southeast Asia Biobased Polymers Production, Consumption, Export, Import by Regions (2011-2016)

4.7 India Biobased Polymers Production, Consumption, Export, Import by Regions (2011-2016)

5 Global Biobased Polymers Production, Revenue (Value), Price Trend by Type

5.1 Global Biobased Polymers Production and Market Share by Type (2011-2016)

5.2 Global Biobased Polymers Revenue and Market Share by Type (2011-2016)

5.3 Global Biobased Polymers Price by Type (2011-2016)

5.4 Global Biobased Polymers Production Growth by Type (2011-2016)

6 Global Biobased Polymers Market Analysis by Application

6.1 Global Biobased Polymers Consumption and Market Share by Application (2011-2016)

6.2 Global Biobased Polymers Consumption Growth Rate by Application (2011-2016)

6.3 Market Drivers and Opportunities

6.3.1 Potential Applications

6.3.2 Emerging Markets/Countries

7 Global Biobased Polymers Manufacturers Profiles/Analysis

7.1 Amyris

7.1.1 Company Basic Information, Manufacturing Base and Its Competitors

7.1.2 Biobased Polymers Product Type, Application and Specification

7.1.2.1 Type I

7.1.2.2 Type II

7.1.3 Amyris Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016)

7.1.4 Main Business/Business Overview

7.2 BioAmber

7.2.1 Company Basic Information, Manufacturing Base and Its Competitors

7.2.2 Biobased Polymers Product Type, Application and Specification

7.2.2.1 Type I

7.2.2.2 Type II

7.2.3 BioAmber Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016)

7.2.4 Main Business/Business Overview

7.3 Braskem

7.3.1 Company Basic Information, Manufacturing Base and Its Competitors

7.3.2 Biobased Polymers Product Type, Application and Specification

7.3.2.1 Type I

7.3.2.2 Type II

7.3.3 Braskem Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016)

7.3.4 Main Business/Business Overview

7.4 NatureWorks

7.4.1 Company Basic Information, Manufacturing Base and Its Competitors

7.4.2 Biobased Polymers Product Type, Application and Specification

7.4.2.1 Type I

7.4.2.2 Type II

7.4.3 NatureWorks Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016)

7.4.4 Main Business/Business Overview

7.5 Aemetis

7.5.1 Company Basic Information, Manufacturing Base and Its Competitors

7.5.2 Biobased Polymers Product Type, Application and Specification

7.5.2.1 Type I

7.5.2.2 Type II

7.5.3 Aemetis Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016)

7.5.4 Main Business/Business Overview

7.6 Agrisoma

7.6.1 Company Basic Information, Manufacturing Base and Its Competitors

7.6.2 Biobased Polymers Product Type, Application and Specification

7.6.2.1 Type I

7.6.2.2 Type II

7.6.3 Agrisoma Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016)

7.6.4 Main Business/Business Overview

7.7 Albemarle

7.7.1 Company Basic Information, Manufacturing Base and Its Competitors

7.7.2 Biobased Polymers Product Type, Application and Specification

7.7.2.1 Type I

7.7.2.2 Type II

7.7.3 Albemarle Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016)

7.7.4 Main Business/Business Overview

7.8 Algae.Tec

7.8.1 Company Basic Information, Manufacturing Base and Its Competitors

7.8.2 Biobased Polymers Product Type, Application and Specification

7.8.2.1 Type I

7.8.2.2 Type II

7.8.3 Algae.Tec Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2015 and 2016)

7.8.4 Main Business/Business Overview

8 Biobased Polymers Manufacturing Cost Analysis

8.1 Biobased Polymers Key Raw Materials Analysis

8.1.1 Key Raw Materials

8.1.2 Price Trend of Key Raw Materials

8.1.3 Key Suppliers of Raw Materials

8.1.4 Market Concentration Rate of Raw Materials

8.2 Proportion of Manufacturing Cost Structure

8.2.1 Raw Materials

8.2.2 Labor Cost

8.2.3 Manufacturing Expenses

8.3 Manufacturing Process Analysis of Biobased Polymers

9 Industrial Chain, Sourcing Strategy and Downstream Buyers

9.1 Biobased Polymers Industrial Chain Analysis

9.2 Upstream Raw Materials Sourcing

9.3 Raw Materials Sources of Biobased Polymers Major Manufacturers in 2015

9.4 Downstream Buyers

10 Marketing Strategy Analysis, Distributors/Traders

10.1 Marketing Channel

10.1.1 Direct Marketing

10.1.2 Indirect Marketing

10.1.3 Marketing Channel Development Trend

10.2 Market Positioning

10.2.1 Pricing Strategy

10.2.2 Brand Strategy

10.2.3 Target Client

10.3 Distributors/Traders List

11 Market Effect Factors Analysis

11.1 Technology Progress/Risk

11.1.1 Substitutes Threat

11.1.2 Technology Progress in Related Industry

11.2 Consumer Needs/Customer Preference Change

11.3 Economic/Political Environmental Change

12 Global Biobased Polymers Market Forecast (2016-2021)

12.1 Global Biobased Polymers Capacity, Production, Revenue Forecast (2016-2021)

12.2 Global Biobased Polymers Production, Consumption Forecast by Regions (2016-2021)

12.3 Global Biobased Polymers Production Forecast by Type (2016-2021)

12.4 Global Biobased Polymers Consumption Forecast by Application (2016-2021)

12.5 Biobased Polymers Price Forecast (2016-2021)

13 Research Findings and Conclusion

14 Appendix

Disclosure Section

Research Methodology

Data Source

China Disclaimer
Figure Picture of Biobased Polymers

Figure Global Production Market Share of Biobased Polymers by Type in 2015

Figure Product Picture of Type I

Table Major Manufacturers of Type I

Figure Product Picture of Type II

Table Major Manufacturers of Type II

Figure Product Picture of Type III

Table Major Manufacturers of Type III

Table Biobased Polymers Consumption Market Share by Application in 2015

Figure Application 1 Examples

Figure Application 2 Examples

Figure Application 3 Examples

Figure North America Biobased Polymers Revenue (Million USD) and Growth Rate (2011-2021)

Figure Europe Biobased Polymers Revenue (Million USD) and Growth Rate (2011-2021)

Figure China Biobased Polymers Revenue (Million USD) and Growth Rate (2011-2021)

Figure Japan Biobased Polymers Revenue (Million USD) and Growth Rate (2011-2021)

Figure Southeast Asia Biobased Polymers Revenue (Million USD) and Growth Rate (2011-2021)

Figure India Biobased Polymers Revenue (Million USD) and Growth Rate (2011-2021)

Figure Global Biobased Polymers Revenue (Million UDS) and Growth Rate (2011-2021)

Table Global Biobased Polymers Capacity of Key Manufacturers (2015 and 2016)

Table Global Biobased Polymers Capacity Market Share by Manufacturers (2015 and 2016)

Figure Global Biobased Polymers Capacity of Key Manufacturers in 2015

Figure Global Biobased Polymers Capacity of Key Manufacturers in 2016

Table Global Biobased Polymers Production of Key Manufacturers (2015 and 2016)

Table Global Biobased Polymers Production Share by Manufacturers (2015 and 2016)

Figure 2015 Biobased Polymers Production Share by Manufacturers

Figure 2016 Biobased Polymers Production Share by Manufacturers

Table Global Biobased Polymers Revenue (Million USD) by Manufacturers (2015 and 2016)

Table Global Biobased Polymers Revenue Share by Manufacturers (2015 and 2016)

Table 2015 Global Biobased Polymers Revenue Share by Manufacturers

Table 2016 Global Biobased Polymers Revenue Share by Manufacturers

Table Global Market Biobased Polymers Average Price of Key Manufacturers (2015 and 2016)

Figure Global Market Biobased Polymers Average Price of Key Manufacturers in 2015

Table Manufacturers Biobased Polymers Manufacturing Base Distribution and Sales Area

Table Manufacturers Biobased Polymers Product Type

Figure Biobased Polymers Market Share of Top 3 Manufacturers

Figure Biobased Polymers Market Share of Top 5 Manufacturers

Table Global Biobased Polymers Capacity by Regions (2011-2016)

Figure Global Biobased Polymers Capacity Market Share by Regions (2011-2016)

Figure Global Biobased Polymers Capacity Market Share by Regions (2011-2016)

Figure 2015 Global Biobased Polymers Capacity Market Share by Regions

Table Global Biobased Polymers Production by Regions (2011-2016)

Figure Global Biobased Polymers Production and Market Share by Regions (2011-2016)

Figure Global Biobased Polymers Production Market Share by Regions (2011-2016)

Figure 2015 Global Biobased Polymers Production Market Share by Regions

Table Global Biobased Polymers Revenue by Regions (2011-2016)

Table Global Biobased Polymers Revenue Market Share by Regions (2011-2016)

Table 2015 Global Biobased Polymers Revenue Market Share by Regions

Table Global Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Table North America Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Table Europe Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Table China Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Table Japan Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Table Southeast Asia Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Table India Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Table Global Biobased Polymers Consumption Market by Regions (2011-2016)

Table Global Biobased Polymers Consumption Market Share by Regions (2011-2016)

Figure Global Biobased Polymers Consumption Market Share by Regions (2011-2016)

Figure 2015 Global Biobased Polymers Consumption Market Share by Regions

Table North America Biobased Polymers Production, Consumption, Import & Export (2011-2016)

Table Europe Biobased Polymers Production, Consumption, Import & Export (2011-2016)

Table China Biobased Polymers Production, Consumption, Import & Export (2011-2016)

Table Japan Biobased Polymers Production, Consumption, Import & Export (2011-2016)

Table Southeast Asia Biobased Polymers Production, Consumption, Import & Export (2011-2016)

Table India Biobased Polymers Production, Consumption, Import & Export (2011-2016)

Table Global Biobased Polymers Production by Type (2011-2016)

Table Global Biobased Polymers Production Share by Type (2011-2016)

Figure Production Market Share of Biobased Polymers by Type (2011-2016)

Figure 2015 Production Market Share of Biobased Polymers by Type

Table Global Biobased Polymers Revenue by Type (2011-2016)

Table Global Biobased Polymers Revenue Share by Type (2011-2016)

Figure Production Revenue Share of Biobased Polymers by Type (2011-2016)

Figure 2015 Revenue Market Share of Biobased Polymers by Type

Table Global Biobased Polymers Price by Type (2011-2016)

Figure Global Biobased Polymers Production Growth by Type (2011-2016)

Table Global Biobased Polymers Consumption by Application (2011-2016)

Table Global Biobased Polymers Consumption Market Share by Application (2011-2016)

Figure Global Biobased Polymers Consumption Market Share by Application in 2015

Table Global Biobased Polymers Consumption Growth Rate by Application (2011-2016)

Figure Global Biobased Polymers Consumption Growth Rate by Application (2011-2016)

Table Amyris Basic Information, Manufacturing Base, Sales Area and Its Competitors

Table Amyris Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Figure Amyris Biobased Polymers Market Share (2011-2016)

Table BioAmber Basic Information, Manufacturing Base, Sales Area and Its Competitors

Table BioAmber Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Figure BioAmber Biobased Polymers Market Share (2011-2016)

Table Braskem Basic Information, Manufacturing Base, Sales Area and Its Competitors

Table Braskem Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Figure Braskem Biobased Polymers Market Share (2011-2016)

Table NatureWorks Basic Information, Manufacturing Base, Sales Area and Its Competitors

Table NatureWorks Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Figure NatureWorks Biobased Polymers Market Share (2011-2016)

Table Aemetis Basic Information, Manufacturing Base, Sales Area and Its Competitors

Table Aemetis Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Figure Aemetis Biobased Polymers Market Share (2011-2016)

Table Agrisoma Basic Information, Manufacturing Base, Sales Area and Its Competitors

Table Agrisoma Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Figure Agrisoma Biobased Polymers Market Share (2011-2016)

Table Albemarle Basic Information, Manufacturing Base, Sales Area and Its Competitors

Table Albemarle Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Figure Albemarle Biobased Polymers Market Share (2011-2016)

Table Algae.Tec Basic Information, Manufacturing Base, Sales Area and Its Competitors

Table Algae.Tec Biobased Polymers Capacity, Production, Revenue, Price and Gross Margin (2011-2016)

Figure Algae.Tec Biobased Polymers Market Share (2011-2016)

Table Production Base and Market Concentration Rate of Raw Material

Figure Price Trend of Key Raw Materials

Table Key Suppliers of Raw Materials

Figure Manufacturing Cost Structure of Biobased Polymers

Figure Manufacturing Process Analysis of Biobased Polymers

Figure Biobased Polymers Industrial Chain Analysis

Table Raw Materials Sources of Biobased Polymers Major Manufacturers in 2015

Table Major Buyers of Biobased Polymers

Table Distributors/Traders List

Figure Global Biobased Polymers Capacity, Production and Growth Rate Forecast (2016-2021)

Figure Global Biobased Polymers Revenue and Growth Rate Forecast (2016-2021)

Table Global Biobased Polymers Production Forecast by Regions (2016-2021)

Table Global Biobased Polymers Consumption Forecast by Regions (2016-2021)

Table Global Biobased Polymers Production Forecast by Type (2016-2021)

Table Global Biobased Polymers Consumption Forecast by Application (2016-2021)

RESEARCH METHODOLOGY

A research methodology is a systematic approach for assessing or conducting a market study. Researchers tend to draw on a variety of both qualitative and quantitative study methods, inclusive of investigations, survey, secondary data and market observation.

Such plans can focus on classifying the products offered by leading market players or simply use statistical models to interpret observations or test hypotheses. While some methods aim for a detailed description of the factors behind an observation, others present the context of the current market scenario.

Now let’s take a closer look at the research methods here.

Secondary Research Model

Extensive data is obtained and cumulated on a substantial basis during the inception phase of the research process. The data accumulated is consistently filtered through validation from the in-house database, paid sources as well reputable industry magazines. A robust research study requires an understanding of the overall value chain. Annual reports and financials of industry players are studied thoroughly to have a comprehensive idea of the market taxonomy.

Primary Insights

Post conglomeration of the data obtained through secondary research; a validation process is initiated to verify the numbers or figures. This process is usually performed by having a detailed discussion with the industry experts.

However, we do not restrict our primary interviews only to the industry leaders. Our team covers the entire value chain while verifying the data. A significant number of raw material suppliers, local manufacturers, distributors, and stakeholders are interviewed to make our findings authentic. The current trends which include the drivers, restraints, and opportunities are also derived through the primary research process.

Market Estimation

The market estimation is conducted by analyzing the data collected through both secondary and primary research. This process involves market breakdown, bottom-up and top- down approach.

Moreover, while forecasting the market a comprehensive statistical time series model is designed for each market. Macroeconomic indicators are considered to understand the current trends of the market. Each data point is verified by the process of data triangulation method to arrive at the final market estimates.

Final Presentation

The penultimate process results in a holistic research report. The study equips key industry players to undertake significant strategic decisions through the findings. The report encompasses detailed market information. Graphical representations of the current market trends are also made available in order to make the study highly comprehensible for the reader.

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