291 |
RCI Carbon Flows Report: Compilation of supply and demand of fossil and renewable carbon on a global and European level (PDF) |
92 |
2023-03 |
Details
|
238 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2022-2027 – Short Version (PDF) |
28 |
2023-02 |
Details
|
150 |
Letter to the Commission on the definition of natural polymers in the REACH microplastics restriction |
4 |
2023-02 |
Details
|
119 |
Renewable Carbon Initiative (RCI) Webinar slides – February 2023 (PDF) |
46 |
2023-02 |
Details
|
103 |
Pathways to bio-based polymers (PNG) |
1 |
2023-02 |
Details
|
89 |
Bio-based biodegradable polymers – Evolution of worldwide production capacities 2018 to 2027 (PNG) |
1 |
2023-02 |
Details
|
63 |
Polymers and Bio-Based Shares – Worldwide 2020-2022 (PNG) |
1 |
2023-02 |
Details
|
62 |
Bio-based polymers – Evolution of worldwide production capacities from 2018 to 2027 (PNG) |
1 |
2023-02 |
Details
|
62 |
Renewable Carbon as a Guiding Principle for Sustainable Carbon Cycles (PDF) |
41 |
2022-02 |
Details
|
61 |
Plastics production 1950–2021 (PNG) |
1 |
2023-02 |
Details
|
53 |
BioSinn – Products for which biodegradation makes sense (PDF) |
134 |
2021-05 |
Details
|
51 |
Global Production Capacities of Bio-based Polymers per region 2022 (PNG) |
1 |
2023-02 |
Details
|
49 |
Shares of the produced bio-based polymers in different market sements in 2022 (PNG) |
1 |
2023-02 |
Details
|
47 |
Biomass Utilisation Worldwide (PNG) |
1 |
2023-02 |
Details
|
46 |
Global Carbon Demand for Chemicals and Derived Materials (PNG) |
1 |
2021-10 |
Details
|
46 |
The Renewable Carbon Initiative’s position on the draft “EU Policy framework on bio-based, biodegradable and compostable plastics” (PDF) |
5 |
2022-10 |
Details
|
42 |
Carbon Footprint and Sustainability of Different Natural Fibres for Biocomposites and Insulation Material − Full version (Update 2019) |
57 |
2019-08 |
Details
|
41 |
CO₂ Reduction Potential of the Chemical Industry Through CCU (PDF) |
28 |
2022-05 |
Details
|
41 |
Importance of mass balance and free attribution (MBFA) for the conversion of the chemical sector to alternative carbon sources (PDF) |
4 |
2022-12 |
Details
|
41 |
Biodegradable Polymers in Various Environments According to Established Standards and Certification Schemes – Graphic (PNG) |
1 |
2021-11 |
Details
|
41 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2020 – 2025 – Short Version |
16 |
2021-01 |
Details
|
39 |
Turning off the Tap for Fossil Carbon – Future Prospects for a Global Chemical and Derived Material Sector Based on Renewable Carbon |
34 |
2021-04 |
Details
|
39 |
Biodegradable Polymers in Various Environments − Graphic (PDF) |
1 |
2020-01 |
Details
|
37 |
Biodegradable Polymers in Various Environments According to Established Standards and Certification Schemes – Graphic (PDF) |
1 |
2021-11 |
Details
|
37 |
Diversity of Advanced Recycling (PNG) |
1 |
2022-06 |
Details
|
36 |
Mapping of advanced recycling – Providers, technologies, and partnerships – Short Version (PDF) |
8 |
2022-06 |
Details
|
36 |
nova-paper #16: The Biomass Utilisation Factor (BUF) |
62 |
2022-06 |
Details
|
35 |
Bio-based non-biod. polymers – Evolution worldwide production capacities 2018-27 (PNG) |
1 |
2023-02 |
Details
|
35 |
nova-Institut: Science-based Consultancy on Renewable Carbon for Chemicals and Materials (PDF) |
6 |
2023-03 |
Details
|
34 |
Consumption of Embedded Carbon for Global Polymers (PNG) |
1 |
2023-02 |
Details
|
32 |
The Renewable Carbon Initiative’s position on the „Communication on Sustainable Carbon Cycles” (PDF) |
7 |
2022-11 |
Details
|
29 |
Schematic Differentiation of Pathways of Drop-in (PNG) |
1 |
2023-02 |
Details
|
27 |
“Bioeconomy: More than Circular Economy” − Graphic |
1 |
2021-01 |
Details
|
26 |
nova-Paper #12: Renewable Carbon – Key to a Sustainable and Future-oriented Chemical and Plastic Industry − Full version |
25 |
2020-09 |
Details
|
24 |
Scenario for the Plastic Industry 2050 (PNG) |
1 |
2021-10 |
Details
|
23 |
PEF – A Sustainable Packaging Material for Bottles (PDF) |
14 |
2022-08 |
Details
|
23 |
Biocomposites offer alternatives from renewable materials (PDF) |
6 |
2022-05 |
Details
|
22 |
Renewable Carbon Refinery (PNG) |
1 |
2022-03 |
Details
|
21 |
Bio-based economy and climate change − Full version |
19 |
2017-01 |
Details
|
21 |
Carbon economy – Studies on support to research and innovation policy in the area of bio-based products and services |
384 |
2021-02 |
Details
|
19 |
Renewable Energy and Renewable Carbon for a Sustainable Future − Graphic |
1 |
2020-09 |
Details
|
17 |
Circular EconomyPLUS: Recommendations for action for a German Circular Economy Strategy |
15 |
2022-11 |
Details
|
17 |
Plant-based PEF bottles (PNG) |
1 |
2022-08 |
Details
|
17 |
“Comprehensive Concept of Circular Economy” − Graphic |
1 |
2016-10 |
Details
|
16 |
Carbon Dioxide Utilisation and Renewable Energy − Graphic |
1 |
2021-04 |
Details
|
16 |
European Bioeconomy in Figures 2008–2019 (PDF) |
32 |
2022-10 |
Details
|
16 |
Renewable Carbon Initiative (RCI) draws worldwide attention (PDF) |
2 |
2021-11 |
Details
|
16 |
Open Letter to DG Environment – Which polymers are “natural polymers” in the sense of the single-use plastic ban? − Full version |
7 |
2019-09 |
Details
|
16 |
Sugar as Feedstock for the Chemical Industry − Full version |
23 |
2019-01 |
Details
|
16 |
Plastic recycling and recovery routes (PNG) |
1 |
2022-06 |
Details
|
15 |
Erneuerbarer Kohlenstoff – Schlüssel zur Zukunft (PDF) |
2 |
2022-07 |
Details
|
15 |
“Hemp fibres for Green Products – An assessment of life cycle studies on hemp fibre applications” − Full version |
20 |
2011-07 |
Details
|
15 |
Comprehensive Concept of a Circular Economy (PNG) |
1 |
2021-08 |
Details
|
15 |
nova-Paper #7 on bio-based economy: “Global bioeconomy in the conflict between biomass supply and demand” − Full version |
13 |
2015-10 |
Details
|
15 |
nova-paper#13: Bio-based products: Green premium prices and consumer perception of different biomass feedstocks |
30 |
2020-12 |
Details
|
14 |
The home compostable coffee capsule of Golden Compound in comparison with coffee capsules made from Aluminium |
8 |
2021-08 |
Details
|
14 |
How much biomass do bio-based plastics need? − Article in bioplastics MAGAZINE |
2 |
2020-04 |
Details
|
14 |
Carbon dioxide (CO2) as chemical feedstock for polymers – technologies, polymers, developers and producers − Short Version |
12 |
2021-01 |
Details
|
14 |
World Plastic Production and Carbon Feedstock – in 2018 and Scenario for 2050 (in million tonnes) |
|
2021-04 |
Details
|
14 |
“Carbon Footprint and Sustainability of Different Natural Fibres for Biocomposites and Insulation Material” − Full version |
48 |
2015-04 |
Details
|
14 |
Guidance for a biorefining roadmap for Thailand |
55 |
2021-04 |
Details
|
14 |
Production of Cannabinoids via Extraction, Chemical Synthesis and Especially Biotechnology – Preview |
8 |
2021-01 |
Details
|
13 |
Ways to Use CO₂ for Polymers – Graphic (PNG) |
|
2021-01 |
Details
|
13 |
Solution made from renewable materials (PDF) |
2 |
2021-11 |
Details
|
13 |
nova-Institut Networking and Knowledge (PDF) |
4 |
2023-03 |
Details
|
12 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2020 – 2025 – Graphics: Figure 4 (PNG) |
|
2021-01 |
Details
|
12 |
nova-Paper#11: Hitchhiker’s Guide to Carbon Capture Utilisation (CCU) − Full version |
24 |
2019-02 |
Details
|
12 |
Emission Reduction Potential for Replacing Fossil Feedstock with CCU-based Methanol (PNG) |
1 |
2022-05 |
Details
|
12 |
Standards and labels for bio-based products − Preview |
4 |
2017-05 |
Details
|
12 |
The Renewable Carbon Initiative – A new movement draws worldwide attention NORA and her FlyPhone on Renewable Carbon |
3 |
2021-08 |
Details
|
12 |
“Bio- and CO2-based Economy: feedstocks, processes and products” − Graphic – Update |
1 |
2016-06 |
Details
|
11 |
“Carbon Footprint and Sustainability of Different Natural Fibres for Biocomposites and Insulation Material” − Article in bioplastics MAGAZINE |
3 |
2015-06 |
Details
|
11 |
BioSinn – Steckbriefe sinnvoll biologisch abbaubarer Produkte auf Basis von nachwachsenden Rohstoffen |
137 |
2021-04 |
Details
|
11 |
Kann der Kerosinbedarf der Europäischen Union durch in der EU produzierte Biomasse gedeckt werden? − Langfassung |
2 |
2020-03 |
Details
|
11 |
CCU-based Resource Supply for the Chemical Industry (PNG) |
1 |
2022-05 |
Details
|
11 |
Life Cycle Assessment (LCA) of the LignoLoc wooden nail − Full version |
8 |
2019-06 |
Details
|
11 |
Die neue Tugend: Kunststoff im Kreislauf (PDF) |
1 |
2022-05 |
Details
|
11 |
nova-Paper#14: Are new food and biomass technologies more sustainable? A review − Full version |
22 |
2020-11 |
Details
|
11 |
Die heimkompostierbare Kaffeekapsel von Golden Compound im Vergleich zur Kaffeekapsel aus Aluminium |
8 |
2021-08 |
Details
|
11 |
Bioeconomy is not alone – from Bioeconomy to Carbon Management |
2 |
2021-04 |
Details
|
11 |
Nachwachsende Rohstoffe in der Wikipedia − Nachwachsende Rohstoffe in der Wikipedia S-Z |
375 |
2010-05 |
Details
|
11 |
Nachwachsende Rohstoffe in der Wikipedia − Nachwachsende Rohstoffe in der Wikipedia F-K |
546 |
2010-05 |
Details
|
11 |
“InnProBio project: Informative factsheets about the most pressing issues” − Factsheet 3: Biodegradability – exposing some of the myths and facts |
5 |
2016-08 |
Details
|
10 |
Chemical Recycling – Status, Trends and Challenges. Technologies, Sustainability, Policy and Key Players − Short Version |
10 |
2020-11 |
Details
|
10 |
CO₂ Emissions From Embedded Carbon in Chemicals (PNG) |
1 |
2022-05 |
Details
|
10 |
1st International Conference on Cellulose Fibres Proceedings 2020 |
|
2020-01 |
Details
|
10 |
Advanced recycling technologies developing at a fast pace (PDF) |
2 |
2022-06 |
Details
|
10 |
Can the European Union’s kerosene demand be met by the amount of biomass produced in the EU? − Full version |
2 |
2020-03 |
Details
|
10 |
“Sustainability Certification and Mass Balance” 14-08 − “Can ISSC PLUS certification be misleading?” and others |
2 |
2014-08 |
Details
|
10 |
Identified Advanced Recycling technology providers worldwide and maximum capacity (PNG) |
1 |
2022-06 |
Details
|
10 |
Das wechselhafte Image der Kunststoffe: Von Begeisterung zur Skepsis, vom Siegeszug zum Umweltproblem (PDF) |
2 |
2022-01 |
Details
|
10 |
State of play of Central and Eastern Europe’s bioeconomies − Full version |
37 |
2018-11 |
Details
|
10 |
Nachwachsende Rohstoffe in der Wikipedia − Nachwachsende Rohstoffe in der Wikipedia A-E |
600 |
2010-05 |
Details
|
10 |
Nachwachsende Rohstoffe in der Wikipedia − Nachwachsende Rohstoffe in der Wikipedia L-R |
509 |
2010-05 |
Details
|
10 |
“Meta-analysis of life cycle assessments for bio-based polymers in the production of Proganic®” − Article in bioplastics MAGAZINE |
4 |
2012-03 |
Details
|
10 |
Biowerkstoff-Report, Ausgabe 8 − Ausgabe 8: Biokunststoffe, Verbundwerkstoffe, bio-basierte Additive, Grüne Chemie |
60 |
2011-03 |
Details
|
10 |
Support for the revision of the Monitoring and Reporting Regulation for the 4th trading period (focus: Carbon Capture and Utilisation (CCU)) − Full version |
51 |
2019-03 |
Details
|
10 |
nova-Paper #7 zu biobasierter Ökonomie: “Globale Bioökonomie im Spannungsfeld von Biomasseangebot und -nachfrage” − Langfassung |
14 |
2015-10 |
Details
|
10 |
Renewable Carbon is the Key to a Sustainable and Future-Oriented Chemical and Plastic Industry − Full version |
46 |
2020-03 |
Details
|
9 |
Global Carbon Demand for Organic Chemicals and Derived Materials by Type of Feedstock (PNG) |
1 |
2021-04 |
Details
|
9 |
The invisible carbon footprint (PNG) |
1 |
2021-05 |
Details
|
9 |
nova Price Indices for Fossil Resources, Metals and Biomass (February 2022) (PNG) |
1 |
2022-02 |
Details
|
9 |
Bio-based Naphtha and Mass Balance Approach – Status & Outlook, Standards & Certification Schemes – Graphics: Cover (PNG) |
|
2021-03 |
Details
|
9 |
Golden Compound’s sustainable coffee capsule – Evaluation of sustainability according to VDI-4605 standard − Full version |
8 |
2019-05 |
Details
|
9 |
Sustainable biomass supply and demand: a scenario analysis |
11 |
2016-05 |
Details
|
9 |
nova-Paper #8 on bio-based economy: “Definition, Calculation and Comparison of the “Biomass Utilization Efficiency (BUE)” of Various Bio-based Chemicals, Polymers and Fuels” − Full version |
26 |
2015-11 |
Details
|
9 |
“Meta-analysis of life cycle assessments for bio-based polymers in the production of Proganic®” − Presentation |
30 |
2012-05 |
Details
|
9 |
Biowerkstoff-Report, Ausgabe 1 − Ausgabe 1: WPC in China, Rohstoffwende, Biokunststoffe |
40 |
2008-06 |
Details
|
9 |
Biowerkstoff-Report, Ausgabe 3 − Ausgabe 3: Rohstoffpreise, Kokosfasern für Sitzkomfort im Auto, Hopfenfasern |
22 |
2008-09 |
Details
|
9 |
Biowerkstoff-Report, Ausgabe 5 − Ausgabe 5: Holzwerkstoffindustrie, Hanfkalk als Baustoff, Rohstoffpreise, Biowerkstoff des Jahres |
40 |
2009-02 |
Details
|
9 |
Study: Land use for Bioplastics − Full version |
4 |
2009-08 |
Details
|
9 |
Biowerkstoff-Report, Ausgabe 6 − Ausgabe 6: Weltmarkt Baumwolle, WPC im Möbelbau, Landnutzung und Biokunststoffe |
48 |
2009-10 |
Details
|
9 |
Biowerkstoff-Report, Ausgabe 7 − Ausgabe 7: Biowerkstoff-Kongress, Report on Industrial Hemp |
70 |
2010-04 |
Details
|
9 |
Biowerkstoff-Report, Ausgabe 4 − Ausgabe 4: Kongress Rohstoffwende & Biowerkstoffe, Bambus, Bernsteinsäure |
60 |
2008-11 |
Details
|
9 |
Quo vadis, cascading use of biomass? − Full version |
11 |
2015-03 |
Details
|
9 |
Biodegradable, bio-based polymers in various environments − Graphic |
1 |
2015-03 |
Details
|
9 |
Sugar as Feedstock for the Chemical Industry − Kurzfassung |
6 |
2019-01 |
Details
|
9 |
Nachhaltig nutzbare Potenziale für Biokraftstoffe in Nutzungskonkurrenz zur Lebens- und Futtermittelproduktion, Bioenergie sowie zur stofflichen Nutzung in Deutschland, Europa und der Welt − Langfassung |
268 |
2015-08 |
Details
|
9 |
“Sources of microplastics relevant to marine protection in Germany” − Full version |
46 |
2015-09 |
Details
|
9 |
“Sources of microplastics relevant to marine protection in Germany” − Langfassung |
43 |
2015-09 |
Details
|
9 |
“InnProBio project: Informative factsheets about the most pressing issues” − Factsheet 1: What are bio-based products? |
2 |
2016-08 |
Details
|
9 |
“InnProBio project: Informative factsheets about the most pressing issues” − Factsheet 2: Sustainability of bio-based products |
4 |
2016-08 |
Details
|
9 |
nova-Paper #7 on bio-based economy: “Global bioeconomy in the conflict between biomass supply and demand” − Graphics |
|
2015-10 |
Details
|
8 |
nova-Paper #9: The “Circular Bioeconomy” – Concepts, Opportunities and Limitations − Full version |
9 |
2018-01 |
Details
|
8 |
Bio-based polymers, a revolutionary change − Short version |
4 |
2017-04 |
Details
|
8 |
Die heimkompostierbare Kaffeekapsel von Golden Compound – Nachhaltigkeitsbewertung nach VDI-4605 − Langfassung |
8 |
2019-05 |
Details
|
8 |
Biowerkstoff-Report, Ausgabe 2 − Ausgabe 2: Fallende Erdölpreise, Globale Rohstoffwende 2, Renaissance der Naturfasern |
21 |
2008-08 |
Details
|
8 |
“From the field to the wheel: Photovoltaic is 40 times more efficient than the best biofuel” − Article in bioplastics MAGAZINE |
2 |
2012-02 |
Details
|
8 |
“Meta-analysis of life cycle assessments for bio-based polymers in the production of Proganic®” − Poster |
1 |
2012-05 |
Details
|
8 |
Meta-Analyse von Ökobilanzen für bio-basierte Polymere in der Produktion von Proganic® − Vollversion |
42 |
2012-05 |
Details
|
8 |
“Did you know…?” − Article in bioplastics MAGAZINE |
1 |
2013-06 |
Details
|
8 |
“Sustainability Certification and Mass Balance” 14-10 − “Mass balance and minimum share” and others |
2 |
2014-10 |
Details
|
8 |
“Sources of microplastics relevant to marine protection in Germany” − Article in bioplastics MAGAZINE |
3 |
2014-06 |
Details
|
8 |
“Sustainability Certification and Mass Balance” 15-01 − Progress in standardization of bio-based products – Terminology |
1 |
2015-01 |
Details
|
8 |
“Agricultural Resources for Bioplastics” − Article in bioplastics MAGAZINE |
3 |
2011-12 |
Details
|
8 |
„Increasing resource efficiency by cascading use of biomass” − Article in Rural21 |
2 |
2014-07 |
Details
|
8 |
BIOMASSEKASKADEN Mehr Ressourceneffizienz durch Kaskadennutzung von Biomasse – von der Theorie zur Praxis − Langfassung |
134 |
2017-06 |
Details
|
8 |
Handlungsempfehlungen für die Durchführung von Ökobilanzen für die stoffliche Nutzung von Biomasse im Spannungsfeld der Politik – Schwerpunkt: Wirkungskategorie Klimawandel − Langfassung |
16 |
2017-01 |
Details
|
8 |
Sustainable First and Second Generation Bioethanol for Europe − Short version |
12 |
2017-09 |
Details
|
8 |
Sustainable First and Second Generation Bioethanol for Europe − Full version |
43 |
2017-11 |
Details
|
8 |
Limit and guideline values for THC (tetrahydrocannabinol) in hemp foods − Full version |
29 |
2019-06 |
Details
|
8 |
Bewertung der Grenz- und Richtwerte von THC (Tetrahydrocannabinol) in hanfhaltigen Lebensmitteln − Langfassung |
29 |
2019-06 |
Details
|
8 |
HOMEcap: Avoiding waste through home composting − Langfassung |
8 |
2019-08 |
Details
|
8 |
Open Letter to the JRC How can the environmental effects of bio-based polymers be compared with those of petrochemical polymers on equal footing? − Full version |
6 |
2019-09 |
Details
|
8 |
HOMEcap: Avoiding waste through home composting − Full version |
8 |
2019-08 |
Details
|
8 |
Biodegradable Polymers in Various Environments − Graphic (PNG) |
1 |
2020-01 |
Details
|
7 |
Global Carbon Demand for Organic Chemicals and Derived Materials by Product Group (PNG) |
1 |
2021-04 |
Details
|
7 |
“Stoffliche Nutzung von Biomasse Basisdaten für Deutschland, Europa und die Welt” − Vollversion |
28 |
2012-02 |
Details
|
7 |
7th Conference on CO2 as Feedstock for Fuels, Chemistry and Polymers 2019 Proceedings |
|
2019-03 |
Details
|
7 |
Bio-based Naphtha and Mass Balance Approach – Status & Outlook, Standards & Certification Schemes – Short Version |
6 |
2021-03 |
Details
|
7 |
Environmental impacts of 250 ml monolayer and PET/PEF multilayer bottles vs. their fossil counterparts (PNG) |
1 |
2022-08 |
Details
|
7 |
Global Carbon Demand for Chemicals and Materials by Sectors (PNG) |
1 |
2021-06 |
Details
|
6 |
WoodCircus good practice catalogue (PDF) |
38 |
2021-12 |
Details
|
6 |
BioSinn Presentation Final Conference 30 April 2021 (PDF) |
141 |
2021-05 |
Details
|
6 |
Embedded Carbon Demand for Main Sector – Today and 2050 (PNG) |
1 |
2021-06 |
Details
|
6 |
PEF properties (PNG) |
1 |
2022-08 |
Details
|
6 |
“Industrial material use of biomass Basic data for Germany, Europe and the world” − Full version |
28 |
2012-02 |
Details
|
6 |
Biorefineries in Europe Map 2017 − Additional information |
8 |
2017-12 |
Details
|
6 |
Abfallhierarchie (PNG) |
1 |
2021-05 |
Details
|
6 |
Chemisches Recycling – Technologie der Zukunft? (PDF) |
2 |
2021-02 |
Details
|
6 |
Roadmap for the Chemical Industry in Europe towards a Bioeconomy − Action plan |
32 |
2019-05 |
Details
|
6 |
Nora and her flyphone on renewable carbon (Comic) |
2 |
2021-05 |
Details
|
6 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2020 – 2025 – Graphics: Figure 2 (PNG) |
|
2021-01 |
Details
|
6 |
nova-Paper #10: Renewable Carbon is Key to a Sustainable and Future-Oriented Chemical Industry − Full version |
11 |
2018-08 |
Details
|
5 |
Waste hierarchy (PNG) |
1 |
2021-05 |
Details
|
5 |
nova-paper #15: A Tax on Fossil Carbon is More Effective Than a Tax on CO2 Emissions |
12 |
2021-06 |
Details
|
5 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2020 – 2025 – Graphics: Figure 6 (PNG) |
|
2021-01 |
Details
|
5 |
The European Hemp Industry: Cultivation, processing and applications for fibres, shivs and seeds − Full version |
9 |
2013-10 |
Details
|
5 |
Products from the Chemical and Derived Material Sector in our Daily Lives (PNG) |
1 |
2021-04 |
Details
|
5 |
European Production of Biocomposites − Graphic |
1 |
2019-11 |
Details
|
5 |
Wood-Plastic Composites (WPC) and Natural Fibre Composites (NFC): European and Global Markets 2012 and Future Trends in Automotive and Construction − Short version & table of contents (Update) |
16 |
2015-06 |
Details
|
5 |
Microplastic in the Environment 2015 – Proceedings |
|
2015-06 |
Details
|
4 |
The European Hemp Industry: Cultivation, processing and applications for fibres, shivs, seeds and flowers − Full version (Update) |
9 |
2016-05 |
Details
|
4 |
Embedded Carbon Demand for Main Sector – Today and 2050 (PDF) |
1 |
2021-06 |
Details
|
4 |
“Natural Biorefinery Hemp” − Graphic |
1 |
2016-05 |
Details
|
4 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2020 – 2025 – Graphics: Figure 8 (PNG) |
|
2021-01 |
Details
|
4 |
“Industrial Material Use of Biomass in Europe 2015” − Poster |
1 |
2015-02 |
Details
|
4 |
Commercialisation updates on bio-based building blocks − Content |
5 |
2020-05 |
Details
|
4 |
Biokomposite: überzeugende Lösungen aus erneuerbaren Materialien |
3 |
2021-09 |
Details
|
4 |
“Bio-based economy: market pull measures for bio-based products” − Table |
3 |
2014-10 |
Details
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4 |
Biobased Polybutylene Succinate (PBS) – An attractive polymer for biopolymer compounds − Full version |
12 |
2016-10 |
Details
|
4 |
Bio-based drop-in, smart drop-in and dedicated chemicals − Full version |
3 |
2017-12 |
Details
|
4 |
nova-paper#13: Bio-based products: Green premium prices and consumer perception of different biomass feedstocks − Article in bioplastics MAGAZINE |
2 |
2020-10 |
Details
|
4 |
Biocomposites: Reducing the use of plastics without changing production technology? − Full version |
4 |
2019-10 |
Details
|
4 |
European Bioeconomy in Figures 2008–2018 (PDF) |
32 |
2021-10 |
Details
|
4 |
“Biocomposites in the Automotive Industry” − Article in bioplastics MAGAZINE |
2 |
2016-02 |
Details
|
4 |
Nora and her flyphone on renewable carbon |
11 |
2021-05 |
Details
|
4 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2020 – 2025 – Graphics: Figure 10 (PNG) |
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2021-01 |
Details
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4 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2020 – 2025 – Graphics: Figure 1 (PNG) |
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2021-01 |
Details
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4 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2020 – 2025 – Graphics: Figure 3 (PNG) |
|
2021-01 |
Details
|
4 |
nova paper #2 on bio-based economy: “Food or non-food: Which agricultural feedstocks are best for industrial uses?” − Full version |
9 |
2013-07 |
Details
|
3 |
Augen auf bei Plastikverboten – zurück zur wissenschaftsbasierten Materialpolitik (PDF) |
2 |
2022-05 |
Details
|
3 |
nova-Paper #3 on bio-based economy: “GreenPremium prices along the value chain of bio-based products” − Full version |
12 |
2014-05 |
Details
|
3 |
nova price indices (June 2021) (PNG) |
1 |
2021-06 |
Details
|
3 |
Plastics Production from 1950 to 2018 − Graphic |
1 |
2019-11 |
Details
|
3 |
“Global Biomass Demand by Sectors” − Graphics |
11 |
2015-10 |
Details
|
3 |
Sugar as Feedstock for the Chemical Industry − Graphics |
|
2019-01 |
Details
|
3 |
nova-Paper #5 on bio-based economy: “New Methodology for Techno-Economic Evaluations of Innovative Industrial Processes by nova-Institute (nTEE)” − Full version |
14 |
2016-04 |
Details
|
3 |
Global Carbon Demand for Chemicals and Materials by Sectors (PDF) |
1 |
2021-06 |
Details
|
3 |
Studie Bioökonomie: Potenziale im Rheinischen Revier – Industrie und Verwertung (PDF) |
76 |
2021-11 |
Details
|
3 |
Levulinic acid – A versatile platform chemical for a variety of market applications − Graphic |
|
2019-10 |
Details
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3 |
Bio-based Building Blocks and Polymers – Global Capacities and Trends 2018-2023 − Graphics |
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2019-02 |
Details
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3 |
Bio-based Building Blocks and Polymers – Global Capacities, Production and Trends 2019 – 2024 − Content |
10 |
2020-01 |
Details
|
3 |
nova-Paper #10: Renewable Carbon is Key to a Sustainable and Future-Oriented Chemical Industry − Langfassung |
11 |
2018-08 |
Details
|
3 |
“Wood-Plastic Composites (WPC) and Natural Fibre Composites (NFC): European and Global Markets 2012 and Future Trends in Automotive and Construction” − Graphics |
|
2015-06 |
Details
|
3 |
DPDSi Report “Wood-Plastic Composites – Global Overview 2015-2019” − Preview |
5 |
2016-05 |
Details
|
3 |
Life cycle stages of monolayer PEF bottles (PNG) |
1 |
2022-08 |
Details
|
3 |
The Climate Change Mitigation Star: A Sixfold Challenge (PNG) |
1 |
2022-02 |
Details
|
3 |
Circularity rating system for wooden products (PDF) |
6 |
2021-12 |
Details
|
3 |
Global Carbon Demand for Organic Chemicals and Derived Materials by End-user Application (PNG) |
1 |
2021-04 |
Details
|
3 |
Annual Production Value of Organic Chemicals in the EU-27 + UK (PNG) |
1 |
2021-04 |
Details
|
3 |
Renewable Materials Tree − Graphic (PDF) |
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2020-12 |
Details
|
3 |
Renewable Materials Tree − Graphic (PNG) |
|
2020-12 |
Details
|
3 |
“A Roadmap to a Thriving Industrial Biotechnology Sector in Europe” − Market Roadmap |
60 |
2015-07 |
Details
|
3 |
“A Roadmap to a Thriving Industrial Biotechnology Sector in Europe” − Integrated Roadmap |
21 |
2015-07 |
Details
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