Jan C. van der Waal, Etienne Mazoyer, Hendrikus J. Baars and Gert-Jan M. Gruter From Terephthalic Acid to 2,5-Furandicarboxylic Acid: An Industrial Perspective. Ch 19 (p 311-329) in Liquid Phase Aerobic Oxidation Catalysis: Industrial Applications and Academic Perspectives: Industrial Applications and Academic Perspectives. Shannon S. Stahl and Paul L. Alsters Eds. John Wiley and Sons. August 2016. DOI: 10.1002/9783527690121.ch19
2015
Andreia F. Sousa, Carla Vilela, Ana Clotilde Fonseca, Marina Matos, Carmen S. R. Freire, Gert-Jan M. Gruter, Jorge Jordão Coelho, Armando J. D. Silvestre: Biobased polyesters and other polymers from 2,5-furandicarboxylic acid: A tribute to furan excellency. Polymer Chemistry 2015, 33(6), 5961-5983. DOI:10.1039/C5PY00686D
2012
Ed de Jong, Matheus A. Dam, Laszlo Sipos, Gert-Jan. M. Gruter: Furandicarboxylic acid (FDCA), a versatile building block for a very interesting class of polyesters. ACS Symp. S. 1105 "Biobased Monomers, Polymers and Materials" (eds. P.B. Smith and R. Gross) 2012, 1-13. DOI:10.1021/bk-2012-1105.ch001
Ed de Jong, Thomas Vijlbrief, Rene Hijkoop, Gert-Jan M. Gruter, Jan C. van der Waal: Promising results with YXY Diesel components in an ESC test cycle using a PACCAR Diesel engine. Biomass and Bioenergy 2012, 36, 151-159. DOI: 10.1016/j.biombioe.2011.10.034
2011
Gert-Jan M Gruter, Laszlo Sipos, Matheus Adrianus Dam: Accelerating Research into Bio-Based FDCA-Polyesters by Using Small Scale Parallel Film Reactors. Combinatorial chemistry & high throughput screening 2011, 15(2), 180-188. DOI: 10.2174/138620712798868374
Camille Descour, Rob Duchateau, Mamoeletsi R. Mosia, Gert-Jan M. Gruter, John R. Severn, Sanjay Rastogi: Catalyst behaviour for 1-pentene and 4-methyl-1-pentene polymerisation for C2-, Cs- and C1-symmetric zirconocenes. Polymer Chemistry, 2011, 2, 2261-2272. DOI: 10.1039/C1PY00257K
Jan C. Van der Waal, Robert-Jan. van Putten, Erik-Jan. Ras, Martin Lok, Gert-Jan M. Gruter, Marjolein Brasz, Ed. De Jong: The High-Throughput Research Approach to Biorefineries – A powerful tool for studying the complexity of catalytic processes.Cellulose Chemistry and Technology 2011, 45(7), 461-466.
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PROCESS FOR THE PREPARATION OF A FURFURAL DERIVATIVE COMPRISING NEUTRALIZING AN ACID REACTION MIXTURE
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PROCESS FOR THE PREPARATION OF A FURFURAL DERIVATIVE
2016
WO2016190739 (Prio 27-05-2015). Avantium Knowledge center.
PROCESS FOR THE PREPARATION OF A FRUCTOSE-RICH SOLUTION FROM A SOLID COMPOSITION COMPRISING FRUCTOSE AND GLUCOSE
WO2016186505 (Prio 27-05-2015). Avantium Knowledge center.
PROCESS FOR THE PURIFICATION OF A CARBOXYLIC ACID-CONTAINING COMPOSITION
WO2016186504 (Prio 21-05-2015). Avantium Knowledge center.
PROCESS FOR THE PREPARATION OF AN AROMATIC DICARBOXYLIC ACID
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CONTINUOUS PROCESS FOR PREPARING ETHYLENE GLYCOL FROM A CARBOHYDRATE SOURCE
WO2016114660 (Prio 13-01-2015). Avantium Knowledge center.
PROCESS FOR PREPARING ETHYLENE GLYCOL FROM A CARBOHYDRATE SOURCE
WO2016114659 (Prio 13-01-2015). Avantium Knowledge center.
PROCESS FOR PREPARING ETHYLENE GLYCOL FROM A CARBOHYDRATE SOURCE
WO2016114658 (Prio 13-01-2015). Avantium Knowledge center.
PROCESS FOR PREPARING ETHYLENE GLYCOL FROM A CARBOHYDRATE
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PROCESS FOR THE PREPARATION OF A SACCHARIDE-CONTAINING SOLUTION FROM A TORREFIED CELLULOSIC BIOMASS
WO2016099272 (Prio 18-12-2014). Avantium Knowledge center.
PROCESS FOR THE PRODUCTION OF SOLID SACCHARIDES FROM AN AQUEOUS SACCHARIDE SOLUTION
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PROCESS FOR PURIFYING A CRUDE COMPOSITION OF DIALKYL ESTER OF 2,5-FURANDICARBOXYLIC ACID
WO2016076711 (Prio 10-11-2014). Furanix Technologies (Avantium)
PREPARATION OF DIALKYL ESTERS OF 2,5-FURANDICARBOXYLIC ACID
2015
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POLYESTERS COMPRISING 2,5-FURANDICARBOXYLATE AND SATURATED DIOL UNITS HAVING A HIGH GLASS TRANSITION TEMPERATURE
WO2015137807 (Prio 11-03-2014). Furanix Technologies (Avantium)
POLYESTER AND METHOD FOR PREPARING SUCH A POLYESTER
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PROCESS FOR ENHANCING THE MOLECULAR WEIGHT OF A POLYESTER
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PROCESS FOR PREPARING A FURAN-BASED POLYAMIDE, A FURAN-BASED OLIGOMER AND COMPOSITIONS AND ARTICLES COMPRISING THE FURAN-BASED POLYAMIDE
WO2015059047 (Prio 21-10-2013). Solvay Specialty Polymers and Furanix Technologies (Avantium)
POLYAMIDES CONTAINING THE BIO-BASED 2,5-FURANDICARBOXYLIC ACID
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PROCESS FOR PURIFYING AN ACID COMPOSITION COMPRISING 2-FORMYL-FURAN-5-CARBOXYLIC ACID AND 2,5-FURANDICARBOXYLIC ACID
2014
WO2014204313 (Prio 20-06-2013). Furanix Technologies (Avantium)
PROCESS FOR THE PREPARATION OF A FIBER, A FIBER AND A YARN MADE FROM SUCH A FIBER
WO2014196861 (Prio 06-06-2013). Furanix Technologies (Avantium)
PROCESS FOR PRODUCING A FRUCTOSIDE-CONTAINING PRODUCT
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PROCESS FOR THE PREPARATION OF 2,5-FURAN-DICARBOXYLIC ACID
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PROCESS FOR THE PREPARATION OF BENZENE DERIVATIVES FROM FURAN DERIVATIVES
2013
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A PROCESS FOR PREPARING A POLYMER PRODUCT HAVING A 2,5-FURANDICARBOXYLATE MOIETY WITHIN THE POLYMER BACKBONE TO BE USED IN BOTTLE, FILM OR FIBRE APPLICATIONS
2012
WO2012091570 (Prio 28-10-2010). Furanix Technologies (Avantium)
PROCESS FOR THE CONVERSION OF A CARBOHYDRATE-CONTAINING FEEDSTOCK
2011
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METHOD FOR THE PREPARATION OF 2,5-FURANDICARBOXYLIC ACID AND ESTERS THEREOF
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METHOD FOR THE PREPARATION OF 2,5-FURANDICARBOXYLIC ACID AND FOR THE PREPARATION OF THE DIALKYL ESTER OF 2,5-FURANDICARBOXYLIC ACID
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CORROSION SIMULATOR AND THE CORRESPONDENCE METHOD
2007
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METHOD FOR THE SYNTHESIS OF ORGANIC ACID ESTERS OF 5-HYDROXYMETHYLFURFURAL AND THEIR USE
WO2007104514 (Prio 10-03-2006) Furanix Technologies (Avantium)
METHOD FOR THE SYNTHESIS OF 5-ALKOXYMETHYL FURFURAL ETHERS AND THEIR USE
US2007106477 (Prio 04-11-2005). Avantium International
Predictive technologies for lubricant development
Bottega Pergher, B., Weinland, D. H., van Putten, R.-J., & Gruter, G. M. (2024). The search for rigid, tough polyesters with high Tg - renewable aromatic polyesters with high isosorbide content. RSC Sustainability. https://doi.org/10.1039/d4su00294f
Brits, M., van Poelgeest, B., Nijenhuis, W., van Velzen, M. J. M., Béen, F. M., Gruter, G. J. M., Brandsma, S. H., & Lamoree, M. H. (2024). Quantitation of polystyrene by pyrolysis-GC-MS: The impact of polymer standards on micro and nanoplastic analysis. Polymer Testing, 137, Article 108511. https://doi.org/10.1016/j.polymertesting.2024.108511[details]
Wang, Y., van Putten, R.-J., Tietema, A., Parsons, J. R., & Gruter, G. M. (2024). Polyester biodegradability: importance and potential for optimisation. Green Chemistry, 26(7), 3698-3716. https://doi.org/10.1039/d3gc04489k[details]
Wang, Y., van der Maas, K., Weinland, D. H., Trijnes, D., van Putten, R-J., Tietema, A., Parsons, J. R., de Rijke, E., & Gruter, G-J. M. (2024). Relationship between Composition and Environmental Degradation of Poly(isosorbide-co-diol oxalate) (PISOX) Copolyesters. Environmental Science and Technology. Advance online publication. https://doi.org/10.1021/acs.est.2c09699
van der Maas, K., Wang, Y., Weinland, D. H., van Putten, R.-J., Wang, B., & Gruter, G. M. (2024). PISOX Copolyesters─Bio- and CO2-Based Marine-Degradable High-Performance Polyesters. ACS Sustainable Chemistry and Engineering, 12(26), 9822-9832. https://doi.org/10.1021/acssuschemeng.4c02266[details]
Bueno Moron, J., van Klink, G., & Gruter, G. J. M. (2023). Production and Downstream Integration of 5-(Chloromethyl)furfural from Lignocellulose. ACS Sustainable Chemistry and Engineering, 11(49), 17492 -17509. https://doi.org/10.1021/acssuschemeng.3c05525[details]
Gruter, G.-JM. (2023). Using carbon above the ground as feedstock to produce our future polymers. Current opinion in green and sustainable chemistry, 40, Article 100743. https://doi.org/10.1016/j.cogsc.2022.100743[details]
Schuler, E., Grooten, L., Kasireddy, M., More, S., Shiju, N. R., Tanielyan, S. K., Augustine, R. L., & Gruter, G.-JM. (2023). Oxalic acid hydrogenation to glycolic acid: heterogeneous catalysts screening. Green Chemistry, 25(6), 2409-2426. https://doi.org/10.1039/d2gc02411j[details]
Schuler, E., Grooten, L., Oulego, P., Shiju, N. R., & Gruter, G.-JM. (2023). Selective reduction of oxalic acid to glycolic acid at low temperature in a continuous flow process. RSC Sustainability, 1(8), 2072-2080. https://doi.org/10.1039/d3su00185g[details]
Tian, L., Skoczynska, E., van Putten, R.-J., Leslie, H. A., & Gruter, G.-JM. (2023). Quantification of polyethylene terephthalate micro- and nanoplastics in domestic wastewater using a simple three-step method. Science of the Total Environment, 857(2), Article 159209. https://doi.org/10.1016/j.scitotenv.2022.159209[details]
Zwicker, M. V., Brick, C., Gruter, G-JM., & van Harreveld, F. (2023). Consumer attitudes and willingness to pay for novel bio-based products using hypothetical bottle choice. Sustainable Production and Consumption, 35, 173-183. Advance online publication. https://doi.org/10.1016/j.spc.2022.10.021[details]
van den Bosch, B., Rawls, B., Brands, M. B., Koopman, C., Phillips, M. F., Figueiredo, M. C., & Gruter, G.-JM. (2023). Formate Over-Oxidation Limits Industrialization of Glycerol Oxidation Paired with Carbon Dioxide Reduction to Formate. ChemPlusChem, 88(4), Article e202300112. https://doi.org/10.1002/cplu.202300112[details]
Gruter, G-JM., & Lange, J-P. (2022). Tutorial on Polymers – Manufacture, Properties, and Applications. In M. Dusselier, & J-P. Lange (Eds.), Biodegradable Polymers in the Circular Plastics Economy (pp. 83-111). Wiley-VCH. Advance online publication. https://doi.org/10.1002/9783527827589.ch4[details]
Muralidhara, A., de Jong, E., Visser, H. A., Gruter, G.-JM., Len, C., Bertrand, J.-P., & Marlair, G. (2022). Fire Propagation Behavior of Some Biobased Furanic Compounds with a Focus on the Polymer PEF. ACS Omega, 7(11), 9181-9195. https://doi.org/10.1021/acsomega.1c05471[details]
Philips, M. F., Gruter, G.-JM., Koper, M. T. M., & Schouten, K. J. P. (2022). Production of Gas Diffusion Layers with Tunable Characteristics. ACS Omega, 7(27), 23041-23049. https://doi.org/10.1021/acsomega.1c06977[details]
Philips, M. F., Pavesi, D., Wissink, T., Figueiredo, M. C., Gruter, G.-JM., Koper, M. T. M., & Schouten, K. J. P. (2022). Electrochemical CO2 Reduction on Gas Diffusion Electrodes: Enhanced Selectivity of In-Bi Bimetallic Particles and Catalyst Layer Optimization through a Design of Experiment Approach. ACS Applied Energy Materials, 5(2), 1720-1730. https://doi.org/10.1021/acsaem.1c03156[details]
Schuler, E., Morana, M., Ermolich, P. A., Lüschen, K., Greer, A. J., Taylor, S. F. R., Hardacre, C., Shiju, N. R., & Gruter, G. J. M. (2022). Formate as a key intermediate in CO2 utilization. Green Chemistry, 24(21), 8227-8258. https://doi.org/10.1039/d2gc02220f[details]
Schuler, E., Morana, M., Shiju, N. R., & Gruter, G-JM. (2022). A new way to make oxalic acid from CO2 and alkali formates: Using the active carbonite intermediate. Sustainable Chemistry for Climate Action, 1, Article 100001. Advance online publication. https://doi.org/10.1016/j.scca.2022.100001[details]
Tian, L., Skoczynska, E., Siddhanti, D., van Putten, R.-J., Leslie, H. A., & Gruter, G.-JM. (2022). Quantification of polyethylene terephthalate microplastics and nanoplastics in sands, indoor dust and sludge using a simplified in-matrix depolymerization method. Marine Pollution Bulletin, 175, Article 113403. https://doi.org/10.1016/j.marpolbul.2022.113403[details]
Tian, L., van Putten, R. J., & Gruter, G. J. M. (2022). Plastic Pollution: The Role of (Bio)Based Plastics and other Solutions. In M. Dusselier , & J-P. Lange (Eds.), Biodegradable Polymers in the Circular Economy (pp. 59-81). Wiley-VCH. https://doi.org/10.1002/9783527827589.ch3[details]
Wang, Y., Davey, C. J. E., van der Maas, K., van Putten, R.-J., Tietema, A., Parsons, J. R., & Gruter, G.-JM. (2022). Biodegradability of novel high Tg poly(isosorbide-co-1,6-hexanediol) oxalate polyester in soil and marine environments. Science of the Total Environment, 815, Article 152781. https://doi.org/10.1016/j.scitotenv.2021.152781[details]
Wang, Y., Murcia Valderrama, M. A., van Putten, R.-J., Davey, C. J. E., Tietema, A., Parsons, J. R., Wang, B., & Gruter, G.-JM. (2022). Biodegradation and non-enzymatic hydrolysis of poly(Lactic-co-glycolic acid) (plga12/88 and plga6/94). Polymers, 14(1), Article 15. https://doi.org/10.3390/polym14010015[details]
Weinland, D. H., van Putten, R.-J., & Gruter, G.-JM. (2022). Evaluating the commercial application potential of polyesters with 1,4:3,6-dianhydrohexitols (isosorbide, isomannide and isoidide) by reviewing the synthetic challenges in step growth polymerization. European Polymer Journal, 164, Article 110964. https://doi.org/10.1016/j.eurpolymj.2021.110964[details]
Weinland, D. H., van der Maas, K., Wang, Y., Bottega Pergher, B., van Putten, R. J., Wang, B., & Gruter, G. J. M. (2022). Overcoming the low reactivity of biobased, secondary diols in polyester synthesis. Nature Communications, 13, Article 7370. https://doi.org/10.1038/s41467-022-34840-2[details]
de Jong, E., Visser, H. A., Sousa Dias, A., Harvey, C., & Gruter, G.-JM. (2022). The Road to Bring FDCA and PEF to the Market. Polymers, 14(5), Article 943. https://doi.org/10.3390/polym14050943[details]
Pavesi, D., Dattila, F., Van de Poll, R. C. J., Anastasiadou, D., Garcia-Muelas, R., Figueiredo, M., Gruter, G-JM., Lopez, N., Koper, M. T. M., & Schouten, K. J. P. (2021). Modulation of the selectivity of CO2 to CO electroreduction in palladium rich Palladium-Indium nanoparticles. Journal of Catalysis, 402, 229-237. https://doi.org/10.1016/j.jcat.2021.08.021[details]
Polman, E. M. N., Gruter, G-J., Parsons, J. R., & Tietema, A. (2021). Comparison of the aerobic biodegradation of biopolymers and the corresponding bioplastics: A review. Science of the Total Environment, 753, Article 141953. Advance online publication. https://doi.org/10.1016/j.scitotenv.2020.141953[details]
Schuler, E., Demetriou, M., Shiju, N. R., & Gruter, G.-JM. (2021). Towards Sustainable Oxalic Acid from CO2 and Biomass. ChemSusChem, 14(18), 3636-3664. https://doi.org/10.1002/cssc.202101272[details]
Schuler, E., Ermolich, P. A., Shiju, N. R., & Gruter, G-JM. (2021). Monomers from CO2: Superbases as Catalysts for Formate-to-Oxalate Coupling. ChemSusChem, 14(6), 1517-1523. Advance online publication. https://doi.org/10.1002/cssc.202002725[details]
Schuler, E., Stoop, M., Shiju, N. R., & Gruter, G.-JM. (2021). Stepping Stones in CO2 Utilization: Optimizing the Formate to Oxalate Coupling Reaction Using Response Surface Modeling. ACS Sustainable Chemistry & Engineering, 9(44), 14777-14788. https://doi.org/10.1021/acssuschemeng.1c04539[details]
Zwicker, M. V., Brick, C., Gruter, G.-JM., & van Harreveld, F. (2021). (Not) Doing the Right Things for the Wrong Reasons: An Investigation of Consumer Attitudes, Perceptions, and Willingness to Pay for Bio-Based Plastics. Sustainability (Switzerland), 13(12), Article 6819. https://doi.org/10.3390/su13126819[details]
Pavesi, D., Ali, F. S. M., Anastasiadou, D., Kallio, T., Figueiredo, M., Gruter, G-J., Koper, M. T. M., & Schouten, K. J. P. (2020). CO2 electroreduction on bimetallic Pd-In nanoparticles. Catalysis Science & Technology, 10(13), 4264-4270. https://doi.org/10.1039/D0CY00831A[details]
Pavesi, D., van de Poll, R. C. J., Krasovic, J. L., Figueiredo, M., Gruter, G-JM., Koper, M. T. M., & Schouten, K. J. P. (2020). Cathodic Disintegration as an Easily Scalable Method for the Production of Sn- and Pb-Based Catalysts for CO2 Reduction. ACS Sustainable Chemistry & Engineering, 8(41), 15603-15610. https://doi.org/10.1021/acssuschemeng.0c04875[details]
Philips, M. F., Gruter, G-JM., Koper, M. T. M., & Schouten, K. J. P. (2020). Optimizing the Electrochemical Reduction of CO2 to Formate: A State-of-the-Art Analysis. ACS Sustainable Chemistry & Engineering, 8(41), 15430-15444. https://doi.org/10.1021/acssuschemeng.0c05215[details]
Valderrama, M. A. M., van Putten, R-J., & Gruter, G-JM. (2020). PLGA Barrier Materials from CO2. The influence of Lactide Co-monomer on Glycolic Acid Polyesters. ACS Applied Polymer Materials, 2(7), 2706-2718. https://doi.org/10.1021/acsapm.0c00315[details]
Zwicker , M. V., Nohlen, H. U., Dalege, J., Gruter, G-JM., & van Harreveld, F. (2020). Applying an attitude network approach to consumer behaviour towards plastic. Journal of Environmental Psychology, 69, Article 101433. Advance online publication. https://doi.org/10.1016/j.jenvp.2020.101433[details]
Valderrama, M. A. M., van Putten, R-J., & Gruter, G-JM. (2019). The potential of oxalic - and glycolic acid based polyesters (review). Towards CO2 as a feedstock (Carbon Capture and Utilization - CCU). European Polymer Journal, 119, 445-468. https://doi.org/10.1016/j.eurpolymj.2019.07.036[details]
Gruter, G. J. M., Tromp, M. & Shiju, N. R. (2018). LIFT funding.
Gruter, G. J. M., Parsons, J. R., Tietema, A., de Voogt, W. P. & van Harreveld, F. (2017). NWO Grant: Novel rigid bio-based polyesters for potential large scale applications..
Gruter, G.-J. (speaker) (20-11-2020). The future of Plastics, Symposium Chemische Binding U Groningen.
Gruter, G.-J. (speaker) (15-10-2020). Hydrotreatment of biomass - MEG from sugars and CO2 reduction, Workshop hydrotreatment of bioliquids, U Groningen.
Gruter, G.-J. (speaker) (14-10-2020). Innovation management - choosing options (industrial and academic perspective), Elcorel EU workshop.
Gruter, G.-J. (speaker) (13-10-2020). Renewable polymers and renewable chemistry: an industry perspective, Bi-annual CSIR conference.
Gruter, G.-J. (speaker) (24-9-2020). The future of plastics, PLASTICS: think global, think circular, rethink end-of-life.
Gruter, G.-J. (speaker) (28-2-2020). The future of plastics, SPUI25 - lecture.
Gruter, G. J. M. (speaker) (11-12-2018). The opportunity of bio-based materials, TU, Eindhoven.
Gruter, G. J. M. (speaker) (14-10-2018). The opportunity of bio-based materials, BIT's 2nd International Biotechnology Congress-2018, Fukuoka.
Gruter, G. J. M. (speaker) (9-10-2018). Duurzame materialen, Bossche Chemische Kring.
Gruter, G. J. M. (speaker) (19-9-2018). The opportunity of bio-based materials, Chemical Innovation Exchange , Frankfurt.
Gruter, G. J. M. (speaker) (18-9-2018). Plastic Packaging, Young Food Policy, Woerden.
Gruter, G. J. M. (speaker) (13-9-2018). How Technology can be driven into commercialization, 8th IUPAC Int Conf Green Chem, Bangkok.
Gruter, G. J. M. (speaker) (12-9-2018). The opportunity of bio-based materials, 8th IUPAC Int Conf Green Chem, Bangkok.
Gruter, G. J. M. (speaker) (13-6-2018). The opportunity of bio-based materials, Oratie, Amsterdam.
Gruter, G. J. M. (speaker) (8-6-2018). Sustainable Chemistry, ABC VU.
Gruter, G. J. M. (speaker) (18-4-2018). Gebruik v innovatieve techn. ter ondersteuning van CO2 reductie, Smart Energy Transition 2018, Bunnik.
Gruter, G. J. M. (speaker) (7-3-2018). The opportunity of bio-based materials, NCCC XIX, Noordwijkerhout.
Gruter, G. J. M. (speaker) (7-3-2018). The opportunity of bio-based materials, CERES.
Gruter, G. J. M. (speaker) (19-9-2017). Scientific breakthrough opportunities in sustainable products, Chemical Innovation Exchange conference, Frankfurt.
Gruter, G. J. M. (speaker) (14-6-2017). Plastic uit planten, Chemische Kring Zwolle.
Gruter, G. J. M. (speaker) (4-5-2017). The opportunity of sustainable materials, Bio!PAC 2017, Dusseldorf.
Andere
Gruter, G.-J. (participant) (22-10-2020). Guest lecture: presentation on Businees Model Innovation. Outreach activity (organising a conference, workshop, ...).
Gruter, G.-J. (organiser) (5-3-2020). Guest lecture: presentation on the future of plastics, Zwolle. Outreach activity (organising a conference, workshop, ...).
Gruter, G.-J. (host) (1-5-2019). Mike Brook (hosting a visitor).
Zwicker, M. V. (2023). The complexity of consumer attitudes towards sustainable alternatives. [Thesis, fully internal, Universiteit van Amsterdam]. [details]
Murcia Valderrama, M. A. (2022). Stepping stones in CO2 utilization: Synthesis and evaluation of oxalic- and glycolic acid (co)polyesters. [Thesis, fully internal, Universiteit van Amsterdam]. [details]
Schuler, E. (2022). Stepping stones in CO2 utilization: Towards process development of oxalic and glycolic acid monomers. [Thesis, fully internal, Universiteit van Amsterdam]. [details]
Wang, Y. (2022). Environmental biodegradability of hydrolysable polyesters from renewable resources. [Thesis, fully internal, Universiteit van Amsterdam]. [details]
Weinland, D. H. (2022). Synthesis of rigid biobased polyesters: Overcoming the low reactivity of secondary diols in polyester synthesis. [Thesis, fully internal, Universiteit van Amsterdam]. [details]
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