[{"publication":"Nature Communications","keyword":["General Physics and Astronomy","General Biochemistry","Genetics and Molecular Biology","General Chemistry","Multidisciplinary"],"author":[{"first_name":"Mikaela","full_name":"Görlin, Mikaela","last_name":"Görlin"},{"last_name":"Halldin Stenlid","full_name":"Halldin Stenlid, Joakim","first_name":"Joakim"},{"full_name":"Koroidov, Sergey","first_name":"Sergey","last_name":"Koroidov"},{"last_name":"Wang","full_name":"Wang, Hsin-Yi","first_name":"Hsin-Yi"},{"last_name":"Börner","first_name":"Mia","full_name":"Börner, Mia"},{"first_name":"Mikhail","full_name":"Shipilin, Mikhail","last_name":"Shipilin"},{"full_name":"Kalinko, Aleksandr","first_name":"Aleksandr","last_name":"Kalinko"},{"first_name":"Vadim","full_name":"Murzin, Vadim","last_name":"Murzin"},{"full_name":"Safonova, Olga V.","first_name":"Olga V.","last_name":"Safonova"},{"first_name":"Maarten","full_name":"Nachtegaal, Maarten","last_name":"Nachtegaal"},{"first_name":"Abdusalam","full_name":"Uheida, Abdusalam","last_name":"Uheida"},{"first_name":"Joydeep","full_name":"Dutta, Joydeep","last_name":"Dutta"},{"first_name":"Matthias","full_name":"Bauer, Matthias","orcid":"0000-0002-9294-6076","last_name":"Bauer","id":"47241"},{"last_name":"Nilsson","first_name":"Anders","full_name":"Nilsson, Anders"},{"full_name":"Diaz-Morales, Oscar","first_name":"Oscar","last_name":"Diaz-Morales"}],"publisher":"Springer Science and Business Media LLC","date_created":"2023-01-30T17:38:28Z","status":"public","volume":11,"abstract":[{"text":"AbstractEfficient oxygen evolution reaction (OER) electrocatalysts are pivotal for sustainable fuel production, where the Ni-Fe oxyhydroxide (OOH) is among the most active catalysts for alkaline OER. Electrolyte alkali metal cations have been shown to modify the activity and reaction intermediates, however, the exact mechanism is at question due to unexplained deviations from the cation size trend. Our X-ray absorption spectroelectrochemical results show that bigger cations shift the Ni2+/(3+δ)+ redox peak and OER activity to lower potentials (however, with typical discrepancies), following the order CsOH > NaOH ≈ KOH > RbOH > LiOH. Here, we find that the OER activity follows the variations in electrolyte pH rather than a specific cation, which accounts for differences both in basicity of the alkali hydroxides and other contributing anomalies. Our density functional theory-derived reactivity descriptors confirm that cations impose negligible effect on the Lewis acidity of Ni, Fe, and O lattice sites, thus strengthening the conclusions of an indirect pH effect.","lang":"eng"}],"user_id":"27611","year":"2020","citation":{"bibtex":"@article{Görlin_Halldin Stenlid_Koroidov_Wang_Börner_Shipilin_Kalinko_Murzin_Safonova_Nachtegaal_et al._2020, title={Key activity descriptors of nickel-iron oxygen evolution electrocatalysts in the presence of alkali metal cations}, volume={11}, DOI={10.1038/s41467-020-19729-2}, number={16181}, journal={Nature Communications}, publisher={Springer Science and Business Media LLC}, author={Görlin, Mikaela and Halldin Stenlid, Joakim and Koroidov, Sergey and Wang, Hsin-Yi and Börner, Mia and Shipilin, Mikhail and Kalinko, Aleksandr and Murzin, Vadim and Safonova, Olga V. and Nachtegaal, Maarten and et al.}, year={2020} }","mla":"Görlin, Mikaela, et al. “Key Activity Descriptors of Nickel-Iron Oxygen Evolution Electrocatalysts in the Presence of Alkali Metal Cations.” Nature Communications, vol. 11, no. 1, 6181, Springer Science and Business Media LLC, 2020, doi:10.1038/s41467-020-19729-2.","apa":"Görlin, M., Halldin Stenlid, J., Koroidov, S., Wang, H.-Y., Börner, M., Shipilin, M., Kalinko, A., Murzin, V., Safonova, O. V., Nachtegaal, M., Uheida, A., Dutta, J., Bauer, M., Nilsson, A., & Diaz-Morales, O. (2020). Key activity descriptors of nickel-iron oxygen evolution electrocatalysts in the presence of alkali metal cations. Nature Communications, 11(1), Article 6181. https://doi.org/10.1038/s41467-020-19729-2","ama":"Görlin M, Halldin Stenlid J, Koroidov S, et al. Key activity descriptors of nickel-iron oxygen evolution electrocatalysts in the presence of alkali metal cations. Nature Communications. 2020;11(1). doi:10.1038/s41467-020-19729-2","chicago":"Görlin, Mikaela, Joakim Halldin Stenlid, Sergey Koroidov, Hsin-Yi Wang, Mia Börner, Mikhail Shipilin, Aleksandr Kalinko, et al. “Key Activity Descriptors of Nickel-Iron Oxygen Evolution Electrocatalysts in the Presence of Alkali Metal Cations.” Nature Communications 11, no. 1 (2020). https://doi.org/10.1038/s41467-020-19729-2.","ieee":"M. Görlin et al., “Key activity descriptors of nickel-iron oxygen evolution electrocatalysts in the presence of alkali metal cations,” Nature Communications, vol. 11, no. 1, Art. no. 6181, 2020, doi: 10.1038/s41467-020-19729-2.","short":"M. Görlin, J. Halldin Stenlid, S. Koroidov, H.-Y. Wang, M. Börner, M. Shipilin, A. Kalinko, V. Murzin, O.V. Safonova, M. Nachtegaal, A. Uheida, J. Dutta, M. Bauer, A. Nilsson, O. Diaz-Morales, Nature Communications 11 (2020)."},"type":"journal_article","_id":"41023","intvolume":" 11","issue":"1","article_number":"6181","department":[{"_id":"35"},{"_id":"306"}],"publication_identifier":{"issn":["2041-1723"]},"publication_status":"published","title":"Key activity descriptors of nickel-iron oxygen evolution electrocatalysts in the presence of alkali metal cations","language":[{"iso":"eng"}],"date_updated":"2023-01-31T08:23:48Z","doi":"10.1038/s41467-020-19729-2"},{"doi":"10.1021/acs.organomet.0c00310","date_updated":"2023-01-31T08:24:14Z","language":[{"iso":"eng"}],"title":"Experimental and Theoretical Study on the Role of Monomeric vs Dimeric Rhodium Oxazolidinone Norbornadiene Complexes in Catalytic Asymmetric 1,2- and 1,4-Additions","publication_identifier":{"issn":["0276-7333","1520-6041"]},"publication_status":"published","department":[{"_id":"35"},{"_id":"306"}],"issue":"17","intvolume":" 39","_id":"41022","page":"3131-3145","type":"journal_article","year":"2020","citation":{"mla":"Kirchhof, Manuel, et al. “Experimental and Theoretical Study on the Role of Monomeric vs Dimeric Rhodium Oxazolidinone Norbornadiene Complexes in Catalytic Asymmetric 1,2- and 1,4-Additions.” Organometallics, vol. 39, no. 17, American Chemical Society (ACS), 2020, pp. 3131–45, doi:10.1021/acs.organomet.0c00310.","bibtex":"@article{Kirchhof_Gugeler_Fischer_Nowakowski_Bauer_Alvarez-Barcia_Abitaev_Schnierle_Qawasmi_Frey_et al._2020, title={Experimental and Theoretical Study on the Role of Monomeric vs Dimeric Rhodium Oxazolidinone Norbornadiene Complexes in Catalytic Asymmetric 1,2- and 1,4-Additions}, volume={39}, DOI={10.1021/acs.organomet.0c00310}, number={17}, journal={Organometallics}, publisher={American Chemical Society (ACS)}, author={Kirchhof, Manuel and Gugeler, Katrin and Fischer, Felix Richard and Nowakowski, Michał and Bauer, Alina and Alvarez-Barcia, Sonia and Abitaev, Karina and Schnierle, Marc and Qawasmi, Yaseen and Frey, Wolfgang and et al.}, year={2020}, pages={3131–3145} }","chicago":"Kirchhof, Manuel, Katrin Gugeler, Felix Richard Fischer, Michał Nowakowski, Alina Bauer, Sonia Alvarez-Barcia, Karina Abitaev, et al. “Experimental and Theoretical Study on the Role of Monomeric vs Dimeric Rhodium Oxazolidinone Norbornadiene Complexes in Catalytic Asymmetric 1,2- and 1,4-Additions.” Organometallics 39, no. 17 (2020): 3131–45. https://doi.org/10.1021/acs.organomet.0c00310.","apa":"Kirchhof, M., Gugeler, K., Fischer, F. R., Nowakowski, M., Bauer, A., Alvarez-Barcia, S., Abitaev, K., Schnierle, M., Qawasmi, Y., Frey, W., Baro, A., Estes, D. P., Sottmann, T., Ringenberg, M. R., Plietker, B., Bauer, M., Kästner, J., & Laschat, S. (2020). Experimental and Theoretical Study on the Role of Monomeric vs Dimeric Rhodium Oxazolidinone Norbornadiene Complexes in Catalytic Asymmetric 1,2- and 1,4-Additions. Organometallics, 39(17), 3131–3145. https://doi.org/10.1021/acs.organomet.0c00310","ama":"Kirchhof M, Gugeler K, Fischer FR, et al. Experimental and Theoretical Study on the Role of Monomeric vs Dimeric Rhodium Oxazolidinone Norbornadiene Complexes in Catalytic Asymmetric 1,2- and 1,4-Additions. Organometallics. 2020;39(17):3131-3145. doi:10.1021/acs.organomet.0c00310","ieee":"M. Kirchhof et al., “Experimental and Theoretical Study on the Role of Monomeric vs Dimeric Rhodium Oxazolidinone Norbornadiene Complexes in Catalytic Asymmetric 1,2- and 1,4-Additions,” Organometallics, vol. 39, no. 17, pp. 3131–3145, 2020, doi: 10.1021/acs.organomet.0c00310.","short":"M. Kirchhof, K. Gugeler, F.R. Fischer, M. Nowakowski, A. Bauer, S. Alvarez-Barcia, K. Abitaev, M. Schnierle, Y. Qawasmi, W. Frey, A. Baro, D.P. Estes, T. Sottmann, M.R. Ringenberg, B. Plietker, M. Bauer, J. Kästner, S. Laschat, Organometallics 39 (2020) 3131–3145."},"user_id":"27611","date_created":"2023-01-30T17:37:18Z","status":"public","volume":39,"publication":"Organometallics","keyword":["Inorganic Chemistry","Organic Chemistry","Physical and Theoretical Chemistry"],"publisher":"American Chemical Society (ACS)","author":[{"last_name":"Kirchhof","first_name":"Manuel","full_name":"Kirchhof, Manuel"},{"full_name":"Gugeler, Katrin","first_name":"Katrin","last_name":"Gugeler"},{"first_name":"Felix Richard","full_name":"Fischer, Felix Richard","last_name":"Fischer"},{"first_name":"Michał","full_name":"Nowakowski, Michał","last_name":"Nowakowski"},{"last_name":"Bauer","full_name":"Bauer, Alina","first_name":"Alina"},{"full_name":"Alvarez-Barcia, Sonia","first_name":"Sonia","last_name":"Alvarez-Barcia"},{"last_name":"Abitaev","full_name":"Abitaev, Karina","first_name":"Karina"},{"last_name":"Schnierle","first_name":"Marc","full_name":"Schnierle, Marc"},{"full_name":"Qawasmi, Yaseen","first_name":"Yaseen","last_name":"Qawasmi"},{"full_name":"Frey, Wolfgang","first_name":"Wolfgang","last_name":"Frey"},{"full_name":"Baro, Angelika","first_name":"Angelika","last_name":"Baro"},{"first_name":"Deven P.","full_name":"Estes, Deven P.","last_name":"Estes"},{"last_name":"Sottmann","full_name":"Sottmann, Thomas","first_name":"Thomas"},{"full_name":"Ringenberg, Mark R.","first_name":"Mark R.","last_name":"Ringenberg"},{"first_name":"Bernd","full_name":"Plietker, Bernd","last_name":"Plietker"},{"first_name":"Matthias","orcid":"0000-0002-9294-6076","full_name":"Bauer, Matthias","last_name":"Bauer","id":"47241"},{"last_name":"Kästner","full_name":"Kästner, Johannes","first_name":"Johannes"},{"last_name":"Laschat","first_name":"Sabine","full_name":"Laschat, Sabine"}]},{"intvolume":" 12","_id":"41025","issue":"29","page":"15800-15813","citation":{"mla":"Prinz, Nils, et al. “Hard X-Ray-Based Techniques for Structural Investigations of CO2 Methanation Catalysts Prepared by MOF Decomposition.” Nanoscale, vol. 12, no. 29, Royal Society of Chemistry (RSC), 2020, pp. 15800–13, doi:10.1039/d0nr01750g.","bibtex":"@article{Prinz_Schwensow_Strübbe_Jentys_Bauer_Kleist_Zobel_2020, title={Hard X-ray-based techniques for structural investigations of CO2 methanation catalysts prepared by MOF decomposition}, volume={12}, DOI={10.1039/d0nr01750g}, number={29}, journal={Nanoscale}, publisher={Royal Society of Chemistry (RSC)}, author={Prinz, Nils and Schwensow, Leif and Strübbe, Sven and Jentys, Andreas and Bauer, Matthias and Kleist, Wolfgang and Zobel, Mirijam}, year={2020}, pages={15800–15813} }","ieee":"N. Prinz et al., “Hard X-ray-based techniques for structural investigations of CO2 methanation catalysts prepared by MOF decomposition,” Nanoscale, vol. 12, no. 29, pp. 15800–15813, 2020, doi: 10.1039/d0nr01750g.","chicago":"Prinz, Nils, Leif Schwensow, Sven Strübbe, Andreas Jentys, Matthias Bauer, Wolfgang Kleist, and Mirijam Zobel. “Hard X-Ray-Based Techniques for Structural Investigations of CO2 Methanation Catalysts Prepared by MOF Decomposition.” Nanoscale 12, no. 29 (2020): 15800–813. https://doi.org/10.1039/d0nr01750g.","apa":"Prinz, N., Schwensow, L., Strübbe, S., Jentys, A., Bauer, M., Kleist, W., & Zobel, M. (2020). Hard X-ray-based techniques for structural investigations of CO2 methanation catalysts prepared by MOF decomposition. Nanoscale, 12(29), 15800–15813. https://doi.org/10.1039/d0nr01750g","ama":"Prinz N, Schwensow L, Strübbe S, et al. Hard X-ray-based techniques for structural investigations of CO2 methanation catalysts prepared by MOF decomposition. Nanoscale. 2020;12(29):15800-15813. doi:10.1039/d0nr01750g","short":"N. Prinz, L. Schwensow, S. Strübbe, A. Jentys, M. Bauer, W. Kleist, M. Zobel, Nanoscale 12 (2020) 15800–15813."},"type":"journal_article","year":"2020","abstract":[{"text":"
We investigate the structure-activity correlations of methanation catalysts obtained by thermal decomposition of a Ni-based metal-organic framework, using pair distribution function, X-ray absorption spectroscopy and X-ray diffraction.
","lang":"eng"}],"user_id":"27611","publication":"Nanoscale","keyword":["General Materials Science"],"author":[{"first_name":"Nils","full_name":"Prinz, Nils","last_name":"Prinz"},{"first_name":"Leif","full_name":"Schwensow, Leif","last_name":"Schwensow"},{"id":"76968","last_name":"Strübbe","full_name":"Strübbe, Sven","first_name":"Sven"},{"last_name":"Jentys","first_name":"Andreas","full_name":"Jentys, Andreas"},{"id":"47241","last_name":"Bauer","full_name":"Bauer, Matthias","orcid":"0000-0002-9294-6076","first_name":"Matthias"},{"last_name":"Kleist","full_name":"Kleist, Wolfgang","first_name":"Wolfgang"},{"full_name":"Zobel, Mirijam","first_name":"Mirijam","last_name":"Zobel"}],"publisher":"Royal Society of Chemistry (RSC)","volume":12,"date_created":"2023-01-30T17:47:17Z","status":"public","date_updated":"2023-01-31T08:24:32Z","doi":"10.1039/d0nr01750g","language":[{"iso":"eng"}],"title":"Hard X-ray-based techniques for structural investigations of CO2 methanation catalysts prepared by MOF decomposition","department":[{"_id":"35"},{"_id":"306"}],"publication_identifier":{"issn":["2040-3364","2040-3372"]},"publication_status":"published"},{"citation":{"ieee":"J. Gujt et al., “Water structure near the surface of Weyl semimetals as catalysts in photocatalytic proton reduction,” Structural Dynamics, vol. 7, no. 3, Art. no. 034101, 2020, doi: 10.1063/4.0000008.","short":"J. Gujt, P. Zimmer, F. Zysk, V. Süß, C. Felser, M. Bauer, T. Kühne, Structural Dynamics 7 (2020).","mla":"Gujt, Jure, et al. “Water Structure near the Surface of Weyl Semimetals as Catalysts in Photocatalytic Proton Reduction.” Structural Dynamics, vol. 7, no. 3, 034101, AIP Publishing, 2020, doi:10.1063/4.0000008.","bibtex":"@article{Gujt_Zimmer_Zysk_Süß_Felser_Bauer_Kühne_2020, title={Water structure near the surface of Weyl semimetals as catalysts in photocatalytic proton reduction}, volume={7}, DOI={10.1063/4.0000008}, number={3034101}, journal={Structural Dynamics}, publisher={AIP Publishing}, author={Gujt, Jure and Zimmer, Peter and Zysk, Frederik and Süß, Vicky and Felser, Claudia and Bauer, Matthias and Kühne, Thomas}, year={2020} }","chicago":"Gujt, Jure, Peter Zimmer, Frederik Zysk, Vicky Süß, Claudia Felser, Matthias Bauer, and Thomas Kühne. “Water Structure near the Surface of Weyl Semimetals as Catalysts in Photocatalytic Proton Reduction.” Structural Dynamics 7, no. 3 (2020). https://doi.org/10.1063/4.0000008.","apa":"Gujt, J., Zimmer, P., Zysk, F., Süß, V., Felser, C., Bauer, M., & Kühne, T. (2020). Water structure near the surface of Weyl semimetals as catalysts in photocatalytic proton reduction. Structural Dynamics, 7(3), Article 034101. https://doi.org/10.1063/4.0000008","ama":"Gujt J, Zimmer P, Zysk F, et al. Water structure near the surface of Weyl semimetals as catalysts in photocatalytic proton reduction. Structural Dynamics. 2020;7(3). doi:10.1063/4.0000008"},"year":"2020","type":"journal_article","article_number":"034101","issue":"3","intvolume":" 7","_id":"41024","volume":7,"status":"public","date_created":"2023-01-30T17:40:53Z","author":[{"first_name":"Jure","full_name":"Gujt, Jure","last_name":"Gujt"},{"last_name":"Zimmer","first_name":"Peter","full_name":"Zimmer, Peter"},{"last_name":"Zysk","id":"14757","first_name":"Frederik","full_name":"Zysk, Frederik"},{"last_name":"Süß","full_name":"Süß, Vicky","first_name":"Vicky"},{"first_name":"Claudia","full_name":"Felser, Claudia","last_name":"Felser"},{"id":"47241","last_name":"Bauer","full_name":"Bauer, Matthias","orcid":"0000-0002-9294-6076","first_name":"Matthias"},{"last_name":"Kühne","id":"49079","first_name":"Thomas","full_name":"Kühne, Thomas"}],"publisher":"AIP Publishing","keyword":["Spectroscopy","Condensed Matter Physics","Instrumentation","Radiation"],"publication":"Structural Dynamics","user_id":"27611","language":[{"iso":"eng"}],"doi":"10.1063/4.0000008","date_updated":"2023-01-31T08:23:35Z","publication_identifier":{"issn":["2329-7778"]},"publication_status":"published","department":[{"_id":"35"},{"_id":"306"}],"title":"Water structure near the surface of Weyl semimetals as catalysts in photocatalytic proton reduction"},{"user_id":"27611","volume":12,"date_created":"2023-01-30T17:35:14Z","status":"public","publication":"ChemCatChem","keyword":["Inorganic Chemistry","Organic Chemistry","Physical and Theoretical Chemistry","Catalysis"],"publisher":"Wiley","author":[{"last_name":"Gregori","first_name":"Bernhard J.","full_name":"Gregori, Bernhard J."},{"last_name":"Nowakowski","first_name":"Michal","full_name":"Nowakowski, Michal"},{"orcid":"0000-0002-9457-400X","full_name":"Schoch, Anke","first_name":"Anke","id":"27611","last_name":"Schoch"},{"first_name":"Simon","full_name":"Pöllath, Simon","last_name":"Pöllath"},{"last_name":"Zweck","full_name":"Zweck, Josef","first_name":"Josef"},{"full_name":"Bauer, Matthias","orcid":"0000-0002-9294-6076","first_name":"Matthias","id":"47241","last_name":"Bauer"},{"first_name":"Axel","full_name":"Jacobi von Wangelin, Axel","last_name":"Jacobi von Wangelin"}],"issue":"21","_id":"41020","intvolume":" 12","page":"5359-5363","type":"journal_article","year":"2020","citation":{"bibtex":"@article{Gregori_Nowakowski_Schoch_Pöllath_Zweck_Bauer_Jacobi von Wangelin_2020, title={Stereoselective Chromium‐Catalyzed Semi‐Hydrogenation of Alkynes}, volume={12}, DOI={10.1002/cctc.202000994}, number={21}, journal={ChemCatChem}, publisher={Wiley}, author={Gregori, Bernhard J. and Nowakowski, Michal and Schoch, Anke and Pöllath, Simon and Zweck, Josef and Bauer, Matthias and Jacobi von Wangelin, Axel}, year={2020}, pages={5359–5363} }","mla":"Gregori, Bernhard J., et al. “Stereoselective Chromium‐Catalyzed Semi‐Hydrogenation of Alkynes.” ChemCatChem, vol. 12, no. 21, Wiley, 2020, pp. 5359–63, doi:10.1002/cctc.202000994.","chicago":"Gregori, Bernhard J., Michal Nowakowski, Anke Schoch, Simon Pöllath, Josef Zweck, Matthias Bauer, and Axel Jacobi von Wangelin. “Stereoselective Chromium‐Catalyzed Semi‐Hydrogenation of Alkynes.” ChemCatChem 12, no. 21 (2020): 5359–63. https://doi.org/10.1002/cctc.202000994.","apa":"Gregori, B. J., Nowakowski, M., Schoch, A., Pöllath, S., Zweck, J., Bauer, M., & Jacobi von Wangelin, A. (2020). Stereoselective Chromium‐Catalyzed Semi‐Hydrogenation of Alkynes. ChemCatChem, 12(21), 5359–5363. https://doi.org/10.1002/cctc.202000994","ama":"Gregori BJ, Nowakowski M, Schoch A, et al. Stereoselective Chromium‐Catalyzed Semi‐Hydrogenation of Alkynes. ChemCatChem. 2020;12(21):5359-5363. doi:10.1002/cctc.202000994","ieee":"B. J. Gregori et al., “Stereoselective Chromium‐Catalyzed Semi‐Hydrogenation of Alkynes,” ChemCatChem, vol. 12, no. 21, pp. 5359–5363, 2020, doi: 10.1002/cctc.202000994.","short":"B.J. Gregori, M. Nowakowski, A. Schoch, S. Pöllath, J. Zweck, M. Bauer, A. Jacobi von Wangelin, ChemCatChem 12 (2020) 5359–5363."},"title":"Stereoselective Chromium‐Catalyzed Semi‐Hydrogenation of Alkynes","publication_status":"published","publication_identifier":{"issn":["1867-3880","1867-3899"]},"department":[{"_id":"35"},{"_id":"306"}],"doi":"10.1002/cctc.202000994","date_updated":"2023-01-31T08:29:24Z","language":[{"iso":"eng"}]},{"title":"ASSESSING THE FUTURE: METHODS AND CRITERIA","department":[{"_id":"152"}],"publication_status":"published","publication_identifier":{"issn":["2633-7762"]},"date_updated":"2023-01-31T10:26:38Z","oa":"1","doi":"10.1017/dsd.2020.278","language":[{"iso":"eng"}],"abstract":[{"lang":"eng","text":"AbstractAs time-to-market is getting shorter, customer needs have to be identified as early as possible in product development. Correctly applied, corporate foresight can give a glimpse into the future to anticipate such needs and thus gain a competitive advantage. A support tool to choose the appropriate method of foresight is not available yet. Thus, a literature study on foresight methods in industry is performed and a novel decision support tool is proposed which avoids high entrepreneurial risks. Based on the findings, potentials for future work are identified for different types of methods."}],"user_id":"5905","publisher":"Cambridge University Press","author":[{"full_name":"Gräßler, Iris","orcid":"0000-0001-5765-971X","first_name":"Iris","id":"47565","last_name":"Gräßler"},{"last_name":"Thiele","id":"33419","first_name":"Henrik","full_name":"Thiele, Henrik"},{"first_name":"P.","full_name":"Scholle, P.","last_name":"Scholle"}],"publication":"Proceedings of the DESIGN 2020 16th International Design Conference","status":"public","date_created":"2021-08-18T09:03:27Z","volume":1,"_id":"23436","intvolume":" 1","conference":{"start_date":"2020-10-26","end_date":"2020-10-29"},"main_file_link":[{"url":"https://doi.org/10.1017/dsd.2020.278","open_access":"1"}],"type":"journal_article","year":"2020","citation":{"short":"I. Gräßler, H. Thiele, P. Scholle, Proceedings of the DESIGN 2020 16th International Design Conference 1 (2020) 569–576.","ieee":"I. Gräßler, H. Thiele, and P. Scholle, “ASSESSING THE FUTURE: METHODS AND CRITERIA,” Proceedings of the DESIGN 2020 16th International Design Conference, vol. 1, pp. 569–576, 2020, doi: 10.1017/dsd.2020.278.","ama":"Gräßler I, Thiele H, Scholle P. ASSESSING THE FUTURE: METHODS AND CRITERIA. Proceedings of the DESIGN 2020 16th International Design Conference. 2020;1:569-576. doi:10.1017/dsd.2020.278","apa":"Gräßler, I., Thiele, H., & Scholle, P. (2020). ASSESSING THE FUTURE: METHODS AND CRITERIA. Proceedings of the DESIGN 2020 16th International Design Conference, 1, 569–576. https://doi.org/10.1017/dsd.2020.278","chicago":"Gräßler, Iris, Henrik Thiele, and P. Scholle. “ASSESSING THE FUTURE: METHODS AND CRITERIA.” Proceedings of the DESIGN 2020 16th International Design Conference 1 (2020): 569–76. https://doi.org/10.1017/dsd.2020.278.","mla":"Gräßler, Iris, et al. “ASSESSING THE FUTURE: METHODS AND CRITERIA.” Proceedings of the DESIGN 2020 16th International Design Conference, vol. 1, Cambridge University Press, 2020, pp. 569–76, doi:10.1017/dsd.2020.278.","bibtex":"@article{Gräßler_Thiele_Scholle_2020, title={ASSESSING THE FUTURE: METHODS AND CRITERIA}, volume={1}, DOI={10.1017/dsd.2020.278}, journal={Proceedings of the DESIGN 2020 16th International Design Conference}, publisher={Cambridge University Press}, author={Gräßler, Iris and Thiele, Henrik and Scholle, P.}, year={2020}, pages={569–576} }"},"page":"569-576"},{"language":[{"iso":"eng"}],"year":"2020","type":"journal_article","citation":{"chicago":"Thiele, Henrik, Sebastian Weber, Jannik Reichwein, Joseph A. Bartolo, Yvan Tchana, Lucas Jimenez, and Jonathan C. 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