[{"language":[{"iso":"eng"}],"keyword":["General Chemical Engineering","General Chemistry"],"abstract":[{"lang":"eng","text":"

A hole transfer from an excited Ru unit towards graphene oxide significantly improved the photocatalytic activity of the complexes.

"}],"publication":"RSC Advances","title":"A photoredox catalysed Heck reaction via hole transfer from a Ru(ii)-bis(terpyridine) complex to graphene oxide","date_created":"2022-02-03T15:10:50Z","publisher":"Royal Society of Chemistry (RSC)","year":"2020","issue":"70","user_id":"16199","department":[{"_id":"15"},{"_id":"170"},{"_id":"295"},{"_id":"286"},{"_id":"230"},{"_id":"35"},{"_id":"790"},{"_id":"27"}],"project":[{"name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"}],"_id":"29744","status":"public","type":"journal_article","doi":"10.1039/d0ra08749a","author":[{"last_name":"Rosenthal","full_name":"Rosenthal, Marta","first_name":"Marta"},{"full_name":"Lindner, Jörg","id":"20797","last_name":"Lindner","first_name":"Jörg"},{"full_name":"Gerstmann, Uwe","id":"171","last_name":"Gerstmann","orcid":"0000-0002-4476-223X","first_name":"Uwe"},{"full_name":"Meier, Armin","last_name":"Meier","first_name":"Armin"},{"last_name":"Schmidt","orcid":"0000-0002-2717-5076","full_name":"Schmidt, Wolf Gero","id":"468","first_name":"Wolf Gero"},{"last_name":"Wilhelm","full_name":"Wilhelm, René","first_name":"René"}],"volume":10,"date_updated":"2025-12-05T14:01:30Z","citation":{"apa":"Rosenthal, M., Lindner, J., Gerstmann, U., Meier, A., Schmidt, W. G., & Wilhelm, R. (2020). A photoredox catalysed Heck reaction via hole transfer from a Ru(ii)-bis(terpyridine) complex to graphene oxide. RSC Advances, 10(70), 42930–42937. https://doi.org/10.1039/d0ra08749a","mla":"Rosenthal, Marta, et al. “A Photoredox Catalysed Heck Reaction via Hole Transfer from a Ru(Ii)-Bis(Terpyridine) Complex to Graphene Oxide.” RSC Advances, vol. 10, no. 70, Royal Society of Chemistry (RSC), 2020, pp. 42930–37, doi:10.1039/d0ra08749a.","bibtex":"@article{Rosenthal_Lindner_Gerstmann_Meier_Schmidt_Wilhelm_2020, title={A photoredox catalysed Heck reaction via hole transfer from a Ru(ii)-bis(terpyridine) complex to graphene oxide}, volume={10}, DOI={10.1039/d0ra08749a}, number={70}, journal={RSC Advances}, publisher={Royal Society of Chemistry (RSC)}, author={Rosenthal, Marta and Lindner, Jörg and Gerstmann, Uwe and Meier, Armin and Schmidt, Wolf Gero and Wilhelm, René}, year={2020}, pages={42930–42937} }","short":"M. Rosenthal, J. Lindner, U. Gerstmann, A. Meier, W.G. Schmidt, R. Wilhelm, RSC Advances 10 (2020) 42930–42937.","ama":"Rosenthal M, Lindner J, Gerstmann U, Meier A, Schmidt WG, Wilhelm R. A photoredox catalysed Heck reaction via hole transfer from a Ru(ii)-bis(terpyridine) complex to graphene oxide. RSC Advances. 2020;10(70):42930-42937. doi:10.1039/d0ra08749a","ieee":"M. Rosenthal, J. Lindner, U. Gerstmann, A. Meier, W. G. Schmidt, and R. Wilhelm, “A photoredox catalysed Heck reaction via hole transfer from a Ru(ii)-bis(terpyridine) complex to graphene oxide,” RSC Advances, vol. 10, no. 70, pp. 42930–42937, 2020, doi: 10.1039/d0ra08749a.","chicago":"Rosenthal, Marta, Jörg Lindner, Uwe Gerstmann, Armin Meier, Wolf Gero Schmidt, and René Wilhelm. “A Photoredox Catalysed Heck Reaction via Hole Transfer from a Ru(Ii)-Bis(Terpyridine) Complex to Graphene Oxide.” RSC Advances 10, no. 70 (2020): 42930–37. https://doi.org/10.1039/d0ra08749a."},"intvolume":" 10","page":"42930-42937","publication_status":"published","publication_identifier":{"issn":["2046-2069"]}},{"publication_status":"published","publication_identifier":{"issn":["0031-9007","1079-7114"]},"issue":"14","year":"2020","citation":{"ama":"Braun C, Neufeld S, Gerstmann U, et al. Vibration-Driven Self-Doping of Dangling-Bond Wires on Si(553)-Au Surfaces. Physical Review Letters. 2020;124(14). doi:10.1103/physrevlett.124.146802","chicago":"Braun, Christian, Sergej Neufeld, Uwe Gerstmann, S. Sanna, J. Plaickner, E. Speiser, N. Esser, and Wolf Gero Schmidt. “Vibration-Driven Self-Doping of Dangling-Bond Wires on Si(553)-Au Surfaces.” Physical Review Letters 124, no. 14 (2020). https://doi.org/10.1103/physrevlett.124.146802.","ieee":"C. Braun et al., “Vibration-Driven Self-Doping of Dangling-Bond Wires on Si(553)-Au Surfaces,” Physical Review Letters, vol. 124, no. 14, 2020, doi: 10.1103/physrevlett.124.146802.","apa":"Braun, C., Neufeld, S., Gerstmann, U., Sanna, S., Plaickner, J., Speiser, E., Esser, N., & Schmidt, W. G. (2020). Vibration-Driven Self-Doping of Dangling-Bond Wires on Si(553)-Au Surfaces. Physical Review Letters, 124(14). https://doi.org/10.1103/physrevlett.124.146802","mla":"Braun, Christian, et al. “Vibration-Driven Self-Doping of Dangling-Bond Wires on Si(553)-Au Surfaces.” Physical Review Letters, vol. 124, no. 14, 2020, doi:10.1103/physrevlett.124.146802.","short":"C. Braun, S. Neufeld, U. Gerstmann, S. Sanna, J. Plaickner, E. Speiser, N. Esser, W.G. Schmidt, Physical Review Letters 124 (2020).","bibtex":"@article{Braun_Neufeld_Gerstmann_Sanna_Plaickner_Speiser_Esser_Schmidt_2020, title={Vibration-Driven Self-Doping of Dangling-Bond Wires on Si(553)-Au Surfaces}, volume={124}, DOI={10.1103/physrevlett.124.146802}, number={14}, journal={Physical Review Letters}, author={Braun, Christian and Neufeld, Sergej and Gerstmann, Uwe and Sanna, S. and Plaickner, J. and Speiser, E. and Esser, N. and Schmidt, Wolf Gero}, year={2020} }"},"intvolume":" 124","date_updated":"2025-12-05T13:59:21Z","author":[{"first_name":"Christian","last_name":"Braun","full_name":"Braun, Christian"},{"first_name":"Sergej","last_name":"Neufeld","id":"23261","full_name":"Neufeld, Sergej"},{"first_name":"Uwe","full_name":"Gerstmann, Uwe","id":"171","orcid":"0000-0002-4476-223X","last_name":"Gerstmann"},{"last_name":"Sanna","full_name":"Sanna, S.","first_name":"S."},{"first_name":"J.","last_name":"Plaickner","full_name":"Plaickner, J."},{"first_name":"E.","last_name":"Speiser","full_name":"Speiser, E."},{"first_name":"N.","full_name":"Esser, N.","last_name":"Esser"},{"first_name":"Wolf Gero","last_name":"Schmidt","orcid":"0000-0002-2717-5076","full_name":"Schmidt, Wolf Gero","id":"468"}],"date_created":"2020-05-29T09:54:43Z","volume":124,"title":"Vibration-Driven Self-Doping of Dangling-Bond Wires on Si(553)-Au Surfaces","doi":"10.1103/physrevlett.124.146802","type":"journal_article","publication":"Physical Review Letters","status":"public","project":[{"_id":"52","name":"Computing Resources Provided by the Paderborn Center for Parallel Computing"},{"_id":"53","name":"TRR 142"},{"_id":"55","name":"TRR 142 - Project Area B"},{"_id":"69","name":"TRR 142 - Subproject B4"},{"name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"},{"name":"TRR 142: Maßgeschneiderte nichtlineare Photonik: Von grundlegenden Konzepten zu funktionellen Strukturen","_id":"53"}],"_id":"17068","user_id":"16199","department":[{"_id":"15"},{"_id":"170"},{"_id":"295"},{"_id":"230"},{"_id":"429"},{"_id":"35"},{"_id":"790"}],"language":[{"iso":"eng"}]},{"citation":{"apa":"Witte, T., Hanemann, S., Sommerfeld, H., Temmen, K., & Fechner, S. (2020). Selbstbau eines digitalen Low-Cost-Fotometers für den Chemieunterricht. CHEMKON, 27(4), 193–198. https://doi.org/10.1002/ckon.201900026","bibtex":"@article{Witte_Hanemann_Sommerfeld_Temmen_Fechner_2020, title={Selbstbau eines digitalen Low-Cost-Fotometers für den Chemieunterricht}, volume={27}, DOI={10.1002/ckon.201900026}, number={4}, journal={CHEMKON}, author={Witte, Thomas and Hanemann, Stefan and Sommerfeld, Herbert and Temmen, Katrin and Fechner, Sabine}, year={2020}, pages={193–198} }","short":"T. Witte, S. Hanemann, H. Sommerfeld, K. Temmen, S. Fechner, CHEMKON 27 (2020) 193–198.","mla":"Witte, Thomas, et al. “Selbstbau eines digitalen Low-Cost-Fotometers für den Chemieunterricht.” CHEMKON, vol. 27, no. 4, 2020, pp. 193–98, doi:10.1002/ckon.201900026.","ama":"Witte T, Hanemann S, Sommerfeld H, Temmen K, Fechner S. Selbstbau eines digitalen Low-Cost-Fotometers für den Chemieunterricht. CHEMKON. 2020;27(4):193-198. doi:10.1002/ckon.201900026","ieee":"T. Witte, S. Hanemann, H. Sommerfeld, K. Temmen, and S. 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Güsken, A. Lauri, Y. Li, A. Jacassi, T. Matsui, B. Doiron, R. Bower, A. Regoutz, A. Mihai, P.K. Petrov, R.F. Oulton, L.F. Cohen, S.A. Maier, MRS Advances 5 (2020) 1843–1850.","mla":"Güsken, Nicholas Alexander, et al. “IR Hot Carrier Based Photodetection in Titanium Nitride Oxide Thin Film-Si Junctions.” MRS Advances, vol. 5, no. 35–36, Springer Science and Business Media LLC, 2020, pp. 1843–50, doi:10.1557/adv.2020.129.","bibtex":"@article{Güsken_Lauri_Li_Jacassi_Matsui_Doiron_Bower_Regoutz_Mihai_Petrov_et al._2020, title={IR hot carrier based photodetection in titanium nitride oxide thin film-Si junctions}, volume={5}, DOI={10.1557/adv.2020.129}, number={35–36}, journal={MRS Advances}, publisher={Springer Science and Business Media LLC}, author={Güsken, Nicholas Alexander and Lauri, Alberto and Li, Yi and Jacassi, Andrea and Matsui, Takayuki and Doiron, Brock and Bower, Ryan and Regoutz, Anna and Mihai, Andrei and Petrov, Peter K. and et al.}, year={2020}, pages={1843–1850} }","apa":"Güsken, N. A., Lauri, A., Li, Y., Jacassi, A., Matsui, T., Doiron, B., Bower, R., Regoutz, A., Mihai, A., Petrov, P. K., Oulton, R. F., Cohen, L. F., & Maier, S. A. (2020). IR hot carrier based photodetection in titanium nitride oxide thin film-Si junctions. MRS Advances, 5(35–36), 1843–1850. https://doi.org/10.1557/adv.2020.129","ama":"Güsken NA, Lauri A, Li Y, et al. IR hot carrier based photodetection in titanium nitride oxide thin film-Si junctions. MRS Advances. 2020;5(35-36):1843-1850. doi:10.1557/adv.2020.129","ieee":"N. A. Güsken et al., “IR hot carrier based photodetection in titanium nitride oxide thin film-Si junctions,” MRS Advances, vol. 5, no. 35–36, pp. 1843–1850, 2020, doi: 10.1557/adv.2020.129.","chicago":"Güsken, Nicholas Alexander, Alberto Lauri, Yi Li, Andrea Jacassi, Takayuki Matsui, Brock Doiron, Ryan Bower, et al. “IR Hot Carrier Based Photodetection in Titanium Nitride Oxide Thin Film-Si Junctions.” MRS Advances 5, no. 35–36 (2020): 1843–50. https://doi.org/10.1557/adv.2020.129."},"year":"2020","department":[{"_id":"623"},{"_id":"15"},{"_id":"230"}],"user_id":"112030","_id":"63046","language":[{"iso":"eng"}],"publication":"MRS Advances","type":"journal_article","status":"public"},{"date_updated":"2025-12-16T11:26:50Z","publisher":"American Physical Society (APS)","volume":2,"date_created":"2023-01-26T13:45:35Z","author":[{"first_name":"Polina R.","last_name":"Sharapova","full_name":"Sharapova, Polina R.","id":"60286"},{"full_name":"Frascella, G.","last_name":"Frascella","first_name":"G."},{"full_name":"Riabinin, M.","last_name":"Riabinin","first_name":"M."},{"full_name":"Pérez, A. M.","last_name":"Pérez","first_name":"A. M."},{"first_name":"O. V.","full_name":"Tikhonova, O. V.","last_name":"Tikhonova"},{"full_name":"Lemieux, S.","last_name":"Lemieux","first_name":"S."},{"last_name":"Boyd","full_name":"Boyd, R. W.","first_name":"R. W."},{"full_name":"Leuchs, G.","last_name":"Leuchs","first_name":"G."},{"first_name":"M. V.","last_name":"Chekhova","full_name":"Chekhova, M. V."}],"title":"Properties of bright squeezed vacuum at increasing brightness","doi":"10.1103/physrevresearch.2.013371","publication_identifier":{"issn":["2643-1564"]},"publication_status":"published","issue":"1","year":"2020","intvolume":" 2","citation":{"ama":"Sharapova PR, Frascella G, Riabinin M, et al. Properties of bright squeezed vacuum at increasing brightness. Physical Review Research. 2020;2(1). doi:10.1103/physrevresearch.2.013371","ieee":"P. R. Sharapova et al., “Properties of bright squeezed vacuum at increasing brightness,” Physical Review Research, vol. 2, no. 1, Art. no. 013371, 2020, doi: 10.1103/physrevresearch.2.013371.","chicago":"Sharapova, Polina R., G. Frascella, M. Riabinin, A. M. Pérez, O. V. Tikhonova, S. Lemieux, R. W. Boyd, G. Leuchs, and M. V. Chekhova. “Properties of Bright Squeezed Vacuum at Increasing Brightness.” Physical Review Research 2, no. 1 (2020). https://doi.org/10.1103/physrevresearch.2.013371.","short":"P.R. Sharapova, G. Frascella, M. Riabinin, A.M. Pérez, O.V. Tikhonova, S. Lemieux, R.W. Boyd, G. Leuchs, M.V. Chekhova, Physical Review Research 2 (2020).","mla":"Sharapova, Polina R., et al. “Properties of Bright Squeezed Vacuum at Increasing Brightness.” Physical Review Research, vol. 2, no. 1, 013371, American Physical Society (APS), 2020, doi:10.1103/physrevresearch.2.013371.","bibtex":"@article{Sharapova_Frascella_Riabinin_Pérez_Tikhonova_Lemieux_Boyd_Leuchs_Chekhova_2020, title={Properties of bright squeezed vacuum at increasing brightness}, volume={2}, DOI={10.1103/physrevresearch.2.013371}, number={1013371}, journal={Physical Review Research}, publisher={American Physical Society (APS)}, author={Sharapova, Polina R. and Frascella, G. and Riabinin, M. and Pérez, A. M. and Tikhonova, O. V. and Lemieux, S. and Boyd, R. W. and Leuchs, G. and Chekhova, M. V.}, year={2020} }","apa":"Sharapova, P. R., Frascella, G., Riabinin, M., Pérez, A. M., Tikhonova, O. V., Lemieux, S., Boyd, R. W., Leuchs, G., & Chekhova, M. V. (2020). Properties of bright squeezed vacuum at increasing brightness. Physical Review Research, 2(1), Article 013371. https://doi.org/10.1103/physrevresearch.2.013371"},"_id":"40364","project":[{"name":"TRR 142: TRR 142","_id":"53"},{"_id":"56","name":"TRR 142 - C: TRR 142 - Project Area C"},{"name":"TRR 142 - C2: TRR 142 - Subproject C2","_id":"72"}],"department":[{"_id":"15"},{"_id":"569"},{"_id":"170"},{"_id":"429"},{"_id":"230"},{"_id":"35"}],"user_id":"16199","keyword":["General Engineering"],"article_number":"013371","language":[{"iso":"eng"}],"publication":"Physical Review Research","type":"journal_article","status":"public"},{"type":"journal_article","publication":"Quantum Science and Technology","abstract":[{"lang":"eng","text":"Abstract\r\n The phenomenon of entanglement is the basis of quantum information and quantum communication processes. Entangled systems with a large number of photons are of great interest at present because they provide a platform for streaming technologies based on photonics. In this paper we present a device which operates with four-photons and based on the Hong–Ou–Mandel interference. The presented device allows to maximize the degree of spatial entanglement and generate the highly entangled four-dimensional Bell states. Furthermore, the use of the interferometer in different regimes leads to fast interference fringes in the coincidence probability with period of oscillations twice smaller than the pump wavelength. We have a good agreement between theoretical simulations and experimental results."}],"status":"public","project":[{"name":"TRR 142: TRR 142","_id":"53"},{"name":"TRR 142 - C: TRR 142 - Project Area C","_id":"56"},{"_id":"72","name":"TRR 142 - C2: TRR 142 - Subproject C2"}],"_id":"40381","user_id":"16199","department":[{"_id":"15"},{"_id":"569"},{"_id":"170"},{"_id":"288"},{"_id":"230"},{"_id":"429"},{"_id":"35"}],"article_number":"045020","keyword":["Electrical and Electronic Engineering","Physics and Astronomy (miscellaneous)","Materials Science (miscellaneous)","Atomic and Molecular Physics","and Optics"],"language":[{"iso":"eng"}],"publication_status":"published","publication_identifier":{"issn":["2058-9565"]},"issue":"4","year":"2020","citation":{"ama":"Ferreri A, Ansari V, Brecht B, Silberhorn C, Sharapova PR. Spatial entanglement and state engineering via four-photon Hong–Ou–Mandel interference. Quantum Science and Technology. 2020;5(4). doi:10.1088/2058-9565/abb411","ieee":"A. Ferreri, V. Ansari, B. Brecht, C. Silberhorn, and P. R. Sharapova, “Spatial entanglement and state engineering via four-photon Hong–Ou–Mandel interference,” Quantum Science and Technology, vol. 5, no. 4, Art. no. 045020, 2020, doi: 10.1088/2058-9565/abb411.","chicago":"Ferreri, A, V Ansari, Benjamin Brecht, Christine Silberhorn, and Polina R. Sharapova. “Spatial Entanglement and State Engineering via Four-Photon Hong–Ou–Mandel Interference.” Quantum Science and Technology 5, no. 4 (2020). https://doi.org/10.1088/2058-9565/abb411.","bibtex":"@article{Ferreri_Ansari_Brecht_Silberhorn_Sharapova_2020, title={Spatial entanglement and state engineering via four-photon Hong–Ou–Mandel interference}, volume={5}, DOI={10.1088/2058-9565/abb411}, number={4045020}, journal={Quantum Science and Technology}, publisher={IOP Publishing}, author={Ferreri, A and Ansari, V and Brecht, Benjamin and Silberhorn, Christine and Sharapova, Polina R.}, year={2020} }","short":"A. Ferreri, V. Ansari, B. Brecht, C. Silberhorn, P.R. Sharapova, Quantum Science and Technology 5 (2020).","mla":"Ferreri, A., et al. “Spatial Entanglement and State Engineering via Four-Photon Hong–Ou–Mandel Interference.” Quantum Science and Technology, vol. 5, no. 4, 045020, IOP Publishing, 2020, doi:10.1088/2058-9565/abb411.","apa":"Ferreri, A., Ansari, V., Brecht, B., Silberhorn, C., & Sharapova, P. R. (2020). Spatial entanglement and state engineering via four-photon Hong–Ou–Mandel interference. Quantum Science and Technology, 5(4), Article 045020. https://doi.org/10.1088/2058-9565/abb411"},"intvolume":" 5","publisher":"IOP Publishing","date_updated":"2025-12-16T11:27:56Z","author":[{"last_name":"Ferreri","full_name":"Ferreri, A","first_name":"A"},{"first_name":"V","full_name":"Ansari, V","last_name":"Ansari"},{"orcid":"0000-0003-4140-0556 ","last_name":"Brecht","full_name":"Brecht, Benjamin","id":"27150","first_name":"Benjamin"},{"last_name":"Silberhorn","id":"26263","full_name":"Silberhorn, Christine","first_name":"Christine"},{"first_name":"Polina R.","last_name":"Sharapova","id":"60286","full_name":"Sharapova, Polina R."}],"date_created":"2023-01-26T14:06:23Z","volume":5,"title":"Spatial entanglement and state engineering via four-photon Hong–Ou–Mandel interference","doi":"10.1088/2058-9565/abb411"},{"title":"Single-channel electronic readout of a multipixel superconducting nanowire single photon detector","date_created":"2023-01-22T17:13:35Z","publisher":"Optica Publishing Group","year":"2020","issue":"4","language":[{"iso":"eng"}],"keyword":["Atomic and Molecular Physics","and Optics"],"abstract":[{"lang":"eng","text":"We present a time-over-threshold readout technique to count the number of activated pixels from an array of superconducting nanowire single photon detectors (SNSPDs). This technique places no additional heatload on the cryostat, and retains the intrinsic count rate of the time-tagger. We demonstrate proof-of-principle operation with respect to a four-pixel device. Furthermore, we show that, given some permissible error threshold, the number of pixels that can be reliably read out scales linearly with the intrinsic signal-to-noise ratio of the individual pixel response."}],"publication":"Optics Express","doi":"10.1364/oe.383111","author":[{"first_name":"Johannes","last_name":"Tiedau","full_name":"Tiedau, Johannes"},{"full_name":"Schapeler, Timon","id":"55629","last_name":"Schapeler","orcid":"0000-0001-7652-1716","first_name":"Timon"},{"last_name":"Anant","full_name":"Anant, Vikas","first_name":"Vikas"},{"first_name":"Helmut","full_name":"Fedder, Helmut","last_name":"Fedder"},{"last_name":"Silberhorn","full_name":"Silberhorn, Christine","id":"26263","first_name":"Christine"},{"id":"49683","full_name":"Bartley, Tim","last_name":"Bartley","first_name":"Tim"}],"volume":28,"date_updated":"2025-12-18T17:10:24Z","citation":{"ieee":"J. Tiedau, T. Schapeler, V. Anant, H. Fedder, C. Silberhorn, and T. 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Bartley, Optics Express 28 (2020).","mla":"Tiedau, Johannes, et al. “Single-Channel Electronic Readout of a Multipixel Superconducting Nanowire Single Photon Detector.” Optics Express, vol. 28, no. 4, 5528, Optica Publishing Group, 2020, doi:10.1364/oe.383111.","bibtex":"@article{Tiedau_Schapeler_Anant_Fedder_Silberhorn_Bartley_2020, title={Single-channel electronic readout of a multipixel superconducting nanowire single photon detector}, volume={28}, DOI={10.1364/oe.383111}, number={45528}, journal={Optics Express}, publisher={Optica Publishing Group}, author={Tiedau, Johannes and Schapeler, Timon and Anant, Vikas and Fedder, Helmut and Silberhorn, Christine and Bartley, Tim}, year={2020} }","apa":"Tiedau, J., Schapeler, T., Anant, V., Fedder, H., Silberhorn, C., & Bartley, T. (2020). Single-channel electronic readout of a multipixel superconducting nanowire single photon detector. 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Sustainable Energy & Fuels, 1723–1729. https://doi.org/10.1039/c9se00607a"},"date_updated":"2022-01-06T06:57:00Z","author":[{"last_name":"Xue","full_name":"Xue, Hongyao","first_name":"Hongyao"},{"first_name":"Haiqin","last_name":"Zhang","full_name":"Zhang, Haiqin"},{"first_name":"Sebastian","last_name":"Fricke","full_name":"Fricke, Sebastian"},{"last_name":"Lüther","full_name":"Lüther, Marco","first_name":"Marco"},{"full_name":"Yang, Zijiang","last_name":"Yang","first_name":"Zijiang"},{"first_name":"Alan","full_name":"Meng, Alan","last_name":"Meng"},{"first_name":"Wolfgang","id":"32","full_name":"Bremser, Wolfgang","last_name":"Bremser"},{"first_name":"Zhenjiang","full_name":"Li, Zhenjiang","last_name":"Li"}],"date_created":"2021-10-04T13:24:31Z","title":"Scalable and energy-efficient synthesis of CoxP for overall water splitting in alkaline media by high energy ball milling","doi":"10.1039/c9se00607a","publication":"Sustainable Energy & Fuels","type":"journal_article","abstract":[{"text":"

Earth-abundant catalysts based on transition metal phosphides (TMPs) such as CoxP have recently gained a lot of attention in the field of electrocatalysis and are usually acquired by chemical synthesis.

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