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The Global Market for Biobased and Sustainable Plastics 2020-2030- Product Image

The Global Market for Biobased and Sustainable Plastics 2020-2030

  • ID: 5231664
  • Report
  • December 2020
  • Region: Global
  • 200 Pages
  • Future Markets, Inc

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FEATURED COMPANIES

  • AMSilk GmbH
  • Bolt Threads
  • Cathay
  • Dupont
  • Mitsubishi Chemicals
  • Spero Renewables

The biobased and sustainable plastics sector aims to create green products from biological based inputs, residue and wastes. This will play an important role in global efforts to achieve a green circular economy. Compared to the conventional plastics sector the industry is small, but undergoing rapid developments due to new technological innovations and increased consumer and industry demand. A market boom is expected over the next few years, with production capacities to increase by >30% by 2025. 

The report contents include: 

  • Analysis of non-biodegradable bio-based plastics and biodegradable plastics.
  • Global production capacities for biobased and sustainable plastics, market demand and trends 2019-2030. 
  • Analysis of biobased polymers market including Polylactic acid (Bio-PLA), Polyethylene terephthalate (Bio-PET), Polytrimethylene terephthalate (Bio-PTT), Polyethylene furanoate (Bio-PEF), Polyamides (Bio-PA), Poly(butylene adipate-co-terephthalate) (Bio-PBAT), Polybutylene succinate (PBS) and copolymers, Polyethylene (Bio-PE), Polypropylene (Bio-PP)
  • Analysis of biodegradable polymers including Polyhydroxyalkanoates (PHA), Polysaccharides, Microfibrillated cellulose (MFC), Cellulose nanocrystals, Cellulose nanofibers, Protein-based bioplastics, Algal and fungal. 
  • Market segmentation analysis for biobased and sustainable plastics including packaging, consumer products, automotive, building & construction, textiles, electronics and agriculture markets. 
  • More than 150 companies profiled including biobased and sustainable plastics products and production capacities. Companies profiled include major producers such as NatureWorks, Total Corbion, Danimer Scientific, Novamont, Mitsubishi Chemicals, Indorama, Braskem, Avantium, Borealis, Cathay, Dupont, BASF, Arkema, DuPont, BASF and many more. Profiles include biobased and sustainable plasticsproducts and production capacities. 
  • Profiles of start-up producers and product developers including AMSilk GmbH, Notpla, CARAPAC Company, Loliware, Bolt Threads, Ecovative, CH-Bioforce Oy, Xampla, Spero Renewables, Checkerspot, Kraig Biocraft Laboratories, Spiber and many more. 
Note: Product cover images may vary from those shown

FEATURED COMPANIES

  • AMSilk GmbH
  • Bolt Threads
  • Cathay
  • Dupont
  • Mitsubishi Chemicals
  • Spero Renewables

1. EXECUTIVE SUMMARY   
1.1  Market trends   
1.1.1 Need to replace single use items               
1.1.2 Product sustainability     
1.1.3 Pollution              
1.1.4 Reduction in emissions  
1.1.5 Performance of bioplastics           
1.1.6 Government policy and sustainability agendas    
1.2 Global production to 2030            
1.3 Main producers and global production capacities               
1.3.1 Producers           
1.3.2 By biobased and sustainable plastic type               
1.3.3 By region             
1.4 Global demand for biobased and sustainable plastics in 2019, by market
1.5 Impact of COVID-19 pandemic on the bioplastics market and future demand        
1.6 Industry developments in 2020-capacities, market news and investments              
1.7 Challenges for the bioplastics market      
 
2 RESEARCH METHODOLOGY        
 
3 THE GLOBAL PLASTICS MARKET
3.1 Global production            
3.2 The importance of plastic              
3.3 Issues with plastics use

4 BIO-BASED OR SUSTAINABLE PLASTICS   
4.1 Drop-in bio-based plastics            
4.2 Novel bio-based plastics

5 BIODEGRADABLE AND COMPOSTABLE PLASTICS
5.1 Biodegradability              
5.2 Compostability

6 ADVANTANGES AND DISADVANTAGES COMPARED TO CONVENTIONAL PLASTICS
 
7 TYPES OF BIOBASED AND/OR BIODEGRADABLE PLASTICS               
 
8 MARKET LEADERS BY BIOBASED AND/OR BIODEGRADABLE PLASTIC TYPES             

9 SYNTHETIC BIO-BASED POLYMERS            
9.1 Polylactic acid (Bio-PLA)
9.1.1 Market analysis
9.1.2 Producers           
9.2 Polyethylene terephthalate (Bio-PET)     
9.2.1 Market analysis
9.2.2 Producers           
9.3 Polytrimethylene terephthalate (Bio-PTT)             
9.3.1 Market analysis
9.3.2 Producers           
9.4 Polyethylene furanoate (Bio-PEF)             
9.4.1 Market analysis
9.4.2 Comparative properties to PET   
9.4.3 Producers           
9.5 Polyamides (Bio-PA)       
9.5.1 Market analysis
9.5.2 Producers           
9.6 Poly(butylene adipate-co-terephthalate) (Bio-PBAT)        
9.6.1 Market analysis
9.6.2 Producers           
9.7 Polybutylene succinate (PBS) and copolymers     
9.7.1 Market analysis
9.7.2 Producers           
9.8 Polyethylene (Bio-PE)    
9.8.1 Market analysis
9.8.2 Producers           
9.9 Polypropylene (Bio-PP)
9.9.1 Market analysis
9.9.2 Producers           

10 NATURAL BIO-BASED POLYMERS               
10.1 Polyhydroxyalkanoates (PHA)     
10.1.1 Market analysis
10.1.2 Commercially available PHAs      
10.1.3 Producers           
10.2 Polysaccharides
10.2.1 Microfibrillated cellulose (MFC)
10.2.1.1 Market analysis
10.2.1.2 Producers           
10.2.2 Cellulose nanocrystals    
10.2.2.1 Market analysis
10.2.2.2 Producers           
10.2.3 Cellulose nanofibers       
10.2.3.1 Market analysis
10.2.3.2 Producers           
10.3 Protein-based bioplastics             
10.3.1 Types, applications and producers            
10.4 Algal and fungal
10.4.1 Types, applications and producers            

11 PRODUCTION OF BIOBASED AND SUSTAINABLE PLASTICS BY REGION        
11.1 North America   
11.2 Europe
11.3 Asia-Pacific         
11.3.1 China     
11.3.2 Japan    
11.4 Latin America    

12 MARKET SEGMENTATION OF BIOBASED AND SUSTAINABLE PLASTICS       
12.1 Packaging            
12.1.1 Sustainable packaging    
12.1.2 Edible packaging               
12.2 Consumer products        
12.3 Automotive        
12.4 Building & construction
12.5 Textiles
12.6 Electronics          
12.7 Agriculture and horticulture        

13 COMPANY PROFILES (158 COMPANY PROFILES)

14 REFERENCES      

Tables

Table 1. Market drivers and trends in bioplastics.               
Table 2. Global production capacities of biobased and sustainable plastics 2018-2030, in 1,000 tons.          
Table 3. Global production capacities, by producers.        
Table 4. Global production capacities of biobased and sustainable plastics 2019-2025, by type, in 1,000 tons.        
Table 5. Global production capacities of biobased and sustainable plastics 2019-2025, by region, tons.      
Table 6. Industry developments in 2020-capacities, market news and investments.            
Table 7. Issues related to the use of plastics.        
Table 8. Type of biodegradation.               
Table 9. Advantages and disadvantages of biobased plastics compared to conventional plastics.   
Table 10. Types of Bio-based and/or Biodegradable Plastics, applications.               
Table 11. Market leader by Bio-based and/or Biodegradable Plastic types.             
Table 12. Polylactic acid (PLA) market analysis.    
Table 13. Lactic acid producers and production capacities.             
Table 14. PLA producers and production capacities.          
Table 15. Bio-based Polyethylene terephthalate (Bio-PET) market analysis.            
Table 16. Bio-based Polyethylene terephthalate (PET) producers.              
Table 17. Polytrimethylene terephthalate (PTT) market analysis.
Table 18. Production capacities of Polytrimethylene terephthalate (PTT), by leading producers.   
Table 19. Polyethylene furanoate (PEF) market analysis.
Table 20. PEF vs. PET.     
Table 21. FDCA and PEF producers.          
Table 22. Bio-based polyamides (Bio-PA) market analysis.              
Table 23. Leading Bio-PA producers production capacities.            
Table 24. Poly(butylene adipate-co-terephthalate) (PBAT) market analysis.            
Table 25. Leading PBAT producers, production capacities and brands.      
Table 26. Bio-PBS market analysis.            
Table 27. Leading PBS producers and production capacities.          
Table 28. Bio-based Polyethylene (Bio-PE) market analysis.           
Table 29. Leading Bio-PE producers.        
Table 30. Bio-PP market analysis.              
Table 31. Leading Bio-PP producers and capacities.           
Table 32. Polyhydroxyalkanoates (PHA) market analysis.
Table 33. Commercially available PHAs.  
Table 34. Polyhydroxyalkanoates (PHA) producers.           
Table 35. Microfibrillated cellulose (MFC) market analysis.            
Table 36. Leading MFC producers and capacities.               
Table 37. Cellulose nanocrystals analysis.               
Table 38: Cellulose nanocrystal production capacities and production process, by producer.          
Table 39. Cellulose nanofibers market analysis.   
Table 40. CNF production capacities and production process, by producer.             
Table 41. Types of protein based-bioplastics, applications and companies.             
Table 42. Types of algal and fungal based-bioplastics, applications and companies.             
Table 43. Global production capacities of biobased and sustainable plastics in 2019-2025, by region, tons.              
Table 44. Biobased and sustainable plastics producers in North America.
Table 45. Biobased and sustainable plastics producers in Europe.               
Table 46. Biobased and sustainable plastics producers in Asia-Pacific.       
Table 47. Biobased and sustainable plastics producers in Latin America.  
Table 48. Lactips plastic pellets.

Figures

Figure 1. Total global production capacities for biobased and sustainable plastics, all types, 000 tons.        
Figure 2. Global production capacities of bioplastics 2018-2030, in 1,000 tons by biodegradable/non-biodegradable types.   
Figure 3. Global production capacities of biobased and sustainable plastics in 2019-2025, by type, in 1,000 tons.  
Figure 4. Global production capacities of bioplastics in 2019-2025, by type.           
Figure 5. Global production capacities of biobased and sustainable plastics 2019.
Figure 6. Global production capacities of biobased and sustainable plastics 2025.
Figure 7. Current and future applications of biobased and sustainable plastics.     
Figure 8. Global demand for biobased and sustainable plastics by end user market, 2019.                
Figure 9. Global demand for biobased and sustainable plastics by end user market, 2020.                
Figure 10. Global production capacities for biobased and sustainable plastics by end user market 2019-2030, tons.                
Figure 11. Challenges for the biobased and sustainable plastics market.   
Figure 12. Global plastics production 1950-2018, millions of tons.              
Figure 13.  Coca-Cola PlantBottle®.           
Figure 14. Interrelationship between conventional, bio-based and biodegradable plastics.              
Figure 15. Production capacities of Polyethylene furanoate (PEF) to 2025.               
Figure 16. Global production capacities of biobased and sustainable plastics 2019.              
Figure 17. Global production capacities of biobased and sustainable plastics 2025.              
Figure 18. Global production capacities for biobased and sustainable plastics by end user market 2019, tons.         
Figure 19. Global production capacities for biobased and sustainable plastics by end user market 2025, in 1,000 tons.                
Figure 20. PHA bioplastics products.
Figure 21. Global production capacities for biobased and sustainable plastics in packaging 2019-2030, in 1,000 tons.                
Figure 22. Global production capacities for biobased and sustainable plastics in consumer products 2019-2030, in 1,000 tons.         
Figure 23. Global production capacities for biobased and sustainable plastics in automotive 2019-2030, in 1,000 tons.                
Figure 24. Global production capacities for biobased and sustainable plastics in building and construction 2019-2030, in 1,000 tons.     
Figure 25. Global production capacities for biobased and sustainable plastics in textiles 2019-2030, in 1,000 tons.                
Figure 26. Global production capacities for biobased and sustainable plastics in electronics 2019-2030, in 1,000 tons.                
Figure 27. Biodegradable mulch films.    
Figure 28. Global production capacities for biobased and sustainable plastics in agriculture 2019-2030, in 1,000 tons.               
Figure 29. Bio-PA rear bumper stay.         
Figure 30. PHA production process.         
Figure 31. IPA synthesis method.              
Figure 32. Compostable water pod.         
Figure 33.  Sulzer equipment for PLA polymerization processing.
Figure 34. Teijin bioplastic film for door handles.               
Figure 35. Corbion FDCA production process.      

Note: Product cover images may vary from those shown
  • NatureWorks
  • Total Corbion
  • Danimer Scientific
  • Novamont
  • Mitsubishi Chemicals
  • Indorama
  • Braskem
  • Avantium
  • Borealis
  • Cathay
  • Dupont
  • BASF
  • Arkema
  • AMSilk GmbH
  • Notpla
  • CARAPAC Company
  • Loliware
  • Bolt Threads
  • Ecovative
  • CH-Bioforce Oy
  • Xampla
  • Spero Renewables
  • Checkerspot
  • Kraig Biocraft Laboratories
  • Spiber
Note: Product cover images may vary from those shown

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