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Understanding the chemistry of precursor solutions for spray-flame synthesis is a key step to developing inexpensive and large scale applications for tailored nanoparticles.

"}],"doi":"10.1039/c9cp05007h","title":"Chemistry of iron nitrate-based precursor solutions for spray-flame synthesis","user_id":"14931","keyword":["Physical and Theoretical Chemistry","General Physics and Astronomy"],"type":"journal_article","publication":"Physical Chemistry Chemical Physics","issue":"44","page":"24793-24801","volume":21,"intvolume":" 21","author":[{"last_name":"Stodt","first_name":"Malte F. B.","full_name":"Stodt, Malte F. B."},{"full_name":"Gonchikzhapov, Munko","first_name":"Munko","last_name":"Gonchikzhapov"},{"orcid":"0000-0003-3993-5316 ","last_name":"Kasper","id":"94562","full_name":"Kasper, Tina","first_name":"Tina"},{"first_name":"Udo","full_name":"Fritsching, Udo","last_name":"Fritsching"},{"first_name":"Johannes","full_name":"Kiefer, Johannes","last_name":"Kiefer"}],"department":[{"_id":"728"}],"citation":{"short":"M.F.B. Stodt, M. Gonchikzhapov, T. Kasper, U. Fritsching, J. 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Chemistry of iron nitrate-based precursor solutions for spray-flame synthesis. Physical Chemistry Chemical Physics, 21(44), 24793–24801. https://doi.org/10.1039/c9cp05007h","ama":"Stodt MFB, Gonchikzhapov M, Kasper T, Fritsching U, Kiefer J. Chemistry of iron nitrate-based precursor solutions for spray-flame synthesis. Physical Chemistry Chemical Physics. 2019;21(44):24793-24801. doi:10.1039/c9cp05007h","bibtex":"@article{Stodt_Gonchikzhapov_Kasper_Fritsching_Kiefer_2019, title={Chemistry of iron nitrate-based precursor solutions for spray-flame synthesis}, volume={21}, DOI={10.1039/c9cp05007h}, number={44}, journal={Physical Chemistry Chemical Physics}, publisher={Royal Society of Chemistry (RSC)}, author={Stodt, Malte F. B. and Gonchikzhapov, Munko and Kasper, Tina and Fritsching, Udo and Kiefer, Johannes}, year={2019}, pages={24793–24801} }"},"publication_status":"published","year":"2019","publication_identifier":{"issn":["1463-9076","1463-9084"]},"language":[{"iso":"eng"}],"status":"public","date_created":"2022-08-02T10:21:03Z","publisher":"Royal Society of Chemistry (RSC)","date_updated":"2023-01-17T08:29:03Z","_id":"32486"},{"user_id":"254","keyword":["Materials Chemistry","Inorganic Chemistry","Condensed Matter Physics"],"doi":"10.1080/1358314x.2019.1625161","title":"Pawel Pieranski – crystallographer of liquids and Alfred-Saupe-prize laureate 2019","issue":"1","volume":28,"page":"23-30","type":"journal_article","publication":"Liquid Crystals Today","department":[{"_id":"313"},{"_id":"230"},{"_id":"638"}],"publication_status":"published","citation":{"chicago":"Kitzerow, Heinz-Siegfried. “Pawel Pieranski – Crystallographer of Liquids and Alfred-Saupe-Prize Laureate 2019.” Liquid Crystals Today 28, no. 1 (2019): 23–30. https://doi.org/10.1080/1358314x.2019.1625161.","ieee":"H.-S. Kitzerow, “Pawel Pieranski – crystallographer of liquids and Alfred-Saupe-prize laureate 2019,” Liquid Crystals Today, vol. 28, no. 1, pp. 23–30, 2019, doi: 10.1080/1358314x.2019.1625161.","ama":"Kitzerow H-S. Pawel Pieranski – crystallographer of liquids and Alfred-Saupe-prize laureate 2019. Liquid Crystals Today. 2019;28(1):23-30. doi:10.1080/1358314x.2019.1625161","apa":"Kitzerow, H.-S. (2019). Pawel Pieranski – crystallographer of liquids and Alfred-Saupe-prize laureate 2019. Liquid Crystals Today, 28(1), 23–30. https://doi.org/10.1080/1358314x.2019.1625161","short":"H.-S. Kitzerow, Liquid Crystals Today 28 (2019) 23–30.","mla":"Kitzerow, Heinz-Siegfried. “Pawel Pieranski – Crystallographer of Liquids and Alfred-Saupe-Prize Laureate 2019.” Liquid Crystals Today, vol. 28, no. 1, Informa UK Limited, 2019, pp. 23–30, doi:10.1080/1358314x.2019.1625161.","bibtex":"@article{Kitzerow_2019, title={Pawel Pieranski – crystallographer of liquids and Alfred-Saupe-prize laureate 2019}, volume={28}, DOI={10.1080/1358314x.2019.1625161}, number={1}, journal={Liquid Crystals Today}, publisher={Informa UK Limited}, author={Kitzerow, Heinz-Siegfried}, year={2019}, pages={23–30} }"},"intvolume":" 28","author":[{"first_name":"Heinz-Siegfried","full_name":"Kitzerow, Heinz-Siegfried","last_name":"Kitzerow","id":"254"}],"date_updated":"2023-01-25T11:38:28Z","_id":"39971","status":"public","publication_identifier":{"issn":["1358-314X","1464-5181"]},"year":"2019","language":[{"iso":"eng"}],"publisher":"Informa UK Limited","date_created":"2023-01-25T11:29:41Z"},{"user_id":"27611","keyword":["Materials Chemistry","Metals and Alloys","Surfaces","Coatings and Films","General Chemistry","Ceramics and Composites","Electronic","Optical and Magnetic Materials","Catalysis"],"abstract":[{"lang":"eng","text":"

Gold(ii) species catalyse the cyclisation of N(2-propyn-1-yl)benzamide to 2-phenyl-5-vinylidene-2-oxazoline without halide abstraction while the neutral gold(i) complex is inactive indicating a gold(ii/i) redox-switch.

"}],"doi":"10.1039/c9cc00283a","title":"Gold(ii) in redox-switchable gold(i) catalysis","issue":"32","page":"4615-4618","volume":55,"type":"journal_article","publication":"Chemical Communications","department":[{"_id":"35"},{"_id":"306"}],"citation":{"ama":"Veit P, Volkert C, Förster C, et al. Gold(<scp>ii</scp>) in redox-switchable gold(<scp>i</scp>) catalysis. Chemical Communications. 2019;55(32):4615-4618. doi:10.1039/c9cc00283a","apa":"Veit, P., Volkert, C., Förster, C., Ksenofontov, V., Schlicher, S., Bauer, M., & Heinze, K. (2019). Gold(<scp>ii</scp>) in redox-switchable gold(<scp>i</scp>) catalysis. Chemical Communications, 55(32), 4615–4618. https://doi.org/10.1039/c9cc00283a","chicago":"Veit, Philipp, Carla Volkert, Christoph Förster, Vadim Ksenofontov, Steffen Schlicher, Matthias Bauer, and Katja Heinze. “Gold(<scp>ii</Scp>) in Redox-Switchable Gold(<scp>i</Scp>) Catalysis.” Chemical Communications 55, no. 32 (2019): 4615–18. https://doi.org/10.1039/c9cc00283a.","ieee":"P. Veit et al., “Gold(<scp>ii</scp>) in redox-switchable gold(<scp>i</scp>) catalysis,” Chemical Communications, vol. 55, no. 32, pp. 4615–4618, 2019, doi: 10.1039/c9cc00283a.","mla":"Veit, Philipp, et al. “Gold(<scp>ii</Scp>) in Redox-Switchable Gold(<scp>i</Scp>) Catalysis.” Chemical Communications, vol. 55, no. 32, Royal Society of Chemistry (RSC), 2019, pp. 4615–18, doi:10.1039/c9cc00283a.","bibtex":"@article{Veit_Volkert_Förster_Ksenofontov_Schlicher_Bauer_Heinze_2019, title={Gold(<scp>ii</scp>) in redox-switchable gold(<scp>i</scp>) catalysis}, volume={55}, DOI={10.1039/c9cc00283a}, number={32}, journal={Chemical Communications}, publisher={Royal Society of Chemistry (RSC)}, author={Veit, Philipp and Volkert, Carla and Förster, Christoph and Ksenofontov, Vadim and Schlicher, Steffen and Bauer, Matthias and Heinze, Katja}, year={2019}, pages={4615–4618} }","short":"P. Veit, C. Volkert, C. Förster, V. Ksenofontov, S. Schlicher, M. Bauer, K. Heinze, Chemical Communications 55 (2019) 4615–4618."},"publication_status":"published","intvolume":" 55","author":[{"last_name":"Veit","full_name":"Veit, Philipp","first_name":"Philipp"},{"last_name":"Volkert","first_name":"Carla","full_name":"Volkert, Carla"},{"last_name":"Förster","full_name":"Förster, Christoph","first_name":"Christoph"},{"first_name":"Vadim","full_name":"Ksenofontov, Vadim","last_name":"Ksenofontov"},{"last_name":"Schlicher","full_name":"Schlicher, Steffen","first_name":"Steffen"},{"orcid":"0000-0002-9294-6076","full_name":"Bauer, Matthias","first_name":"Matthias","last_name":"Bauer","id":"47241"},{"full_name":"Heinze, Katja","first_name":"Katja","last_name":"Heinze"}],"date_updated":"2023-01-31T08:29:37Z","_id":"41050","year":"2019","publication_identifier":{"issn":["1359-7345","1364-548X"]},"language":[{"iso":"eng"}],"status":"public","date_created":"2023-01-30T20:01:46Z","publisher":"Royal Society of Chemistry (RSC)"},{"keyword":["Renewable Energy","Sustainability and the Environment","General Chemical Engineering","Environmental Chemistry","General Chemistry"],"user_id":"98120","title":"Looking at the “Water-in-Deep-Eutectic-Solvent” System: A Dilution Range for High Performance Eutectics","doi":"10.1021/acssuschemeng.9b05096","page":"17565-17573","volume":7,"issue":"21","publication":"ACS Sustainable Chemistry & Engineering","type":"journal_article","citation":{"apa":"Lopez Salas, N., Vicent-Luna, J. M., Imberti, S., Posada, E., Roldán, M. J., Anta, J. A., Balestra, S. R. G., Madero Castro, R. M., Calero, S., Jiménez-Riobóo, R. J., Gutiérrez, M. C., Ferrer, M. L., & del Monte, F. (2019). Looking at the “Water-in-Deep-Eutectic-Solvent” System: A Dilution Range for High Performance Eutectics. ACS Sustainable Chemistry &amp; Engineering, 7(21), 17565–17573. https://doi.org/10.1021/acssuschemeng.9b05096","ama":"Lopez Salas N, Vicent-Luna JM, Imberti S, et al. Looking at the “Water-in-Deep-Eutectic-Solvent” System: A Dilution Range for High Performance Eutectics. ACS Sustainable Chemistry &amp; Engineering. 2019;7(21):17565-17573. doi:10.1021/acssuschemeng.9b05096","ieee":"N. 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Ferrer, F. del Monte, ACS Sustainable Chemistry &amp; Engineering 7 (2019) 17565–17573."},"publication_status":"published","author":[{"id":"98120","last_name":"Lopez Salas","full_name":"Lopez Salas, Nieves","first_name":"Nieves","orcid":"https://orcid.org/0000-0002-8438-9548"},{"last_name":"Vicent-Luna","full_name":"Vicent-Luna, José Manuel","first_name":"José Manuel"},{"last_name":"Imberti","first_name":"Silvia","full_name":"Imberti, Silvia"},{"first_name":"Elena","full_name":"Posada, Elena","last_name":"Posada"},{"last_name":"Roldán","full_name":"Roldán, María Jesús","first_name":"María Jesús"},{"first_name":"Juan A.","full_name":"Anta, Juan A.","last_name":"Anta"},{"last_name":"Balestra","full_name":"Balestra, Salvador R. G.","first_name":"Salvador R. 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Selective binding of Ca2+ cations to block copolyelectrolytes with two anionic blocks yields well-defined micelles.

"}],"title":"Ion-selective binding as a new trigger for micellization of block copolyelectrolytes with two anionic blocks","keyword":["Condensed Matter Physics","General Chemistry"],"user_id":"237","status":"public","language":[{"iso":"eng"}],"publication_identifier":{"issn":["1744-683X","1744-6848"]},"year":"2019","publisher":"Royal Society of Chemistry (RSC)","date_created":"2023-02-06T12:29:13Z","date_updated":"2023-02-06T12:29:45Z","_id":"41827","intvolume":" 15","author":[{"first_name":"Nico","full_name":"Carl, Nico","last_name":"Carl"},{"first_name":"Sylvain","full_name":"Prévost, Sylvain","last_name":"Prévost"},{"last_name":"Schweins","first_name":"Ralf","full_name":"Schweins, Ralf"},{"full_name":"Huber, Klaus","first_name":"Klaus","id":"237","last_name":"Huber"}],"department":[{"_id":"314"}],"publication_status":"published","citation":{"apa":"Carl, N., Prévost, S., Schweins, R., & Huber, K. (2019). Ion-selective binding as a new trigger for micellization of block copolyelectrolytes with two anionic blocks. Soft Matter, 15(41), 8266–8271. https://doi.org/10.1039/c9sm01138b","ama":"Carl N, Prévost S, Schweins R, Huber K. Ion-selective binding as a new trigger for micellization of block copolyelectrolytes with two anionic blocks. Soft Matter. 2019;15(41):8266-8271. doi:10.1039/c9sm01138b","chicago":"Carl, Nico, Sylvain Prévost, Ralf Schweins, and Klaus Huber. “Ion-Selective Binding as a New Trigger for Micellization of Block Copolyelectrolytes with Two Anionic Blocks.” Soft Matter 15, no. 41 (2019): 8266–71. https://doi.org/10.1039/c9sm01138b.","ieee":"N. Carl, S. Prévost, R. Schweins, and K. 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Huber, Soft Matter 15 (2019) 8266–8271."}},{"keyword":["Polymers and Plastics","General Chemical Engineering","General Chemistry"],"user_id":"53912","title":"Einfache Ermittlung von Schnellhärtungsparametern für elementar geklebte Strukturen","doi":"10.1007/s35145-019-0004-2","page":"40-45","volume":63,"issue":"1-2","publication":"adhäsion KLEBEN & DICHTEN","type":"journal_article","citation":{"mla":"Ditter, Jan, et al. “Einfache Ermittlung von Schnellhärtungsparametern für elementar geklebte Strukturen.” adhäsion KLEBEN &amp; DICHTEN, vol. 63, no. 1–2, Springer Science and Business Media LLC, 2019, pp. 40–45, doi:10.1007/s35145-019-0004-2.","bibtex":"@article{Ditter_Aubel_Teutenberg_Meschut_2019, title={Einfache Ermittlung von Schnellhärtungsparametern für elementar geklebte Strukturen}, volume={63}, DOI={10.1007/s35145-019-0004-2}, number={1–2}, journal={adhäsion KLEBEN &amp; DICHTEN}, publisher={Springer Science and Business Media LLC}, author={Ditter, Jan and Aubel, Tobias and Teutenberg, Dominik and Meschut, Gerson}, year={2019}, pages={40–45} }","short":"J. 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Engelkemeier, J.K.N. Lindner, J. Bürger, K. Vaupel, M. Hartmann, M. Tiemann, K.-P. Hoyer, M. Schaper, Nanotechnology 31 (2019).","apa":"Engelkemeier, K., Lindner, J. K. N., Bürger, J., Vaupel, K., Hartmann, M., Tiemann, M., Hoyer, K.-P., & Schaper, M. (2019). Nano-architectural complexity of zinc oxide nanowall hollow microspheres and their structural properties. Nanotechnology, 31(9), Article 095701. https://doi.org/10.1088/1361-6528/ab55bc","ama":"Engelkemeier K, Lindner JKN, Bürger J, et al. Nano-architectural complexity of zinc oxide nanowall hollow microspheres and their structural properties. Nanotechnology. 2019;31(9). doi:10.1088/1361-6528/ab55bc","chicago":"Engelkemeier, Katja, Jörg K N Lindner, Julius Bürger, Kathrin Vaupel, Marc Hartmann, Michael Tiemann, Kay-Peter Hoyer, and Mirko Schaper. “Nano-Architectural Complexity of Zinc Oxide Nanowall Hollow Microspheres and Their Structural Properties.” Nanotechnology 31, no. 9 (2019). https://doi.org/10.1088/1361-6528/ab55bc.","ieee":"K. Engelkemeier et al., “Nano-architectural complexity of zinc oxide nanowall hollow microspheres and their structural properties,” Nanotechnology, vol. 31, no. 9, Art. no. 095701, 2019, doi: 10.1088/1361-6528/ab55bc."},"intvolume":" 31","author":[{"id":"21743","last_name":"Engelkemeier","first_name":"Katja","full_name":"Engelkemeier, Katja"},{"last_name":"Lindner","full_name":"Lindner, Jörg K N","first_name":"Jörg K N"},{"first_name":"Julius","full_name":"Bürger, Julius","id":"46952","last_name":"Bürger"},{"last_name":"Vaupel","first_name":"Kathrin","full_name":"Vaupel, Kathrin"},{"last_name":"Hartmann","full_name":"Hartmann, Marc","first_name":"Marc"},{"full_name":"Tiemann, Michael","first_name":"Michael","id":"23547","last_name":"Tiemann","orcid":"0000-0003-1711-2722"},{"first_name":"Kay-Peter","full_name":"Hoyer, Kay-Peter","last_name":"Hoyer","id":"48411"},{"first_name":"Mirko","full_name":"Schaper, Mirko","last_name":"Schaper","id":"43720"}],"issue":"9","article_number":"095701","volume":31,"type":"journal_article","publication":"Nanotechnology","quality_controlled":"1","keyword":["Electrical and Electronic Engineering","Mechanical Engineering","Mechanics of Materials","General Materials Science","General Chemistry","Bioengineering"],"user_id":"43720","doi":"10.1088/1361-6528/ab55bc","title":"Nano-architectural complexity of zinc oxide nanowall hollow microspheres and their structural properties"},{"year":"2019","publication_identifier":{"issn":["2044-4753"]},"language":[{"iso":"eng"}],"status":"public","date_created":"2026-02-07T15:47:21Z","date_updated":"2026-02-17T16:16:33Z","_id":"63991","intvolume":" 9","author":[{"full_name":"Klimavicius, V.","first_name":"V.","last_name":"Klimavicius"},{"first_name":"S.","full_name":"Neumann, S.","last_name":"Neumann"},{"first_name":"S.","full_name":"Kunz, S.","last_name":"Kunz"},{"first_name":"Torsten","full_name":"Gutmann, Torsten","id":"118165","last_name":"Gutmann"},{"last_name":"Buntkowsky","full_name":"Buntkowsky, G.","first_name":"G."}],"citation":{"chicago":"Klimavicius, V., S. Neumann, S. Kunz, Torsten Gutmann, and G. Buntkowsky. “Room Temperature CO Oxidation Catalysed by Supported Pt Nanoparticles Revealed by Solid-State NMR and DNP Spectroscopy.” Catalysis Science & Technology 9, no. 14 (2019): 3743–3752. https://doi.org/10.1039/c9cy00684b.","short":"V. Klimavicius, S. Neumann, S. Kunz, T. Gutmann, G. Buntkowsky, Catalysis Science & Technology 9 (2019) 3743–3752.","ieee":"V. Klimavicius, S. Neumann, S. Kunz, T. Gutmann, and G. Buntkowsky, “Room temperature CO oxidation catalysed by supported Pt nanoparticles revealed by solid-state NMR and DNP spectroscopy,” Catalysis Science & Technology, vol. 9, no. 14, pp. 3743–3752, 2019, doi: 10.1039/c9cy00684b.","mla":"Klimavicius, V., et al. “Room Temperature CO Oxidation Catalysed by Supported Pt Nanoparticles Revealed by Solid-State NMR and DNP Spectroscopy.” Catalysis Science & Technology, vol. 9, no. 14, 2019, pp. 3743–3752, doi:10.1039/c9cy00684b.","ama":"Klimavicius V, Neumann S, Kunz S, Gutmann T, Buntkowsky G. Room temperature CO oxidation catalysed by supported Pt nanoparticles revealed by solid-state NMR and DNP spectroscopy. Catalysis Science & Technology. 2019;9(14):3743–3752. doi:10.1039/c9cy00684b","bibtex":"@article{Klimavicius_Neumann_Kunz_Gutmann_Buntkowsky_2019, title={Room temperature CO oxidation catalysed by supported Pt nanoparticles revealed by solid-state NMR and DNP spectroscopy}, volume={9}, DOI={10.1039/c9cy00684b}, number={14}, journal={Catalysis Science & Technology}, author={Klimavicius, V. and Neumann, S. and Kunz, S. and Gutmann, Torsten and Buntkowsky, G.}, year={2019}, pages={3743–3752} }","apa":"Klimavicius, V., Neumann, S., Kunz, S., Gutmann, T., & Buntkowsky, G. (2019). Room temperature CO oxidation catalysed by supported Pt nanoparticles revealed by solid-state NMR and DNP spectroscopy. Catalysis Science & Technology, 9(14), 3743–3752. https://doi.org/10.1039/c9cy00684b"},"type":"journal_article","publication":"Catalysis Science & Technology","issue":"14","page":"3743–3752","volume":9,"abstract":[{"text":"A series of 1 and 2 nm sized platinum nanoparticles (Pt-NPs) deposited on different support materials, namely, gamma-alumina (gamma-Al2O3), titanium dioxide (TiO2), silicon dioxide (SiO2) and fumed silica are investigated by solid-state NMR and dynamic nuclear polarization enhanced NMR spectroscopy (DNP). DNP signal enhancement factors up to 170 enable gaining deeper insight into the surface chemistry of Pt-NPs. Carbon monoxide is used as a probe molecule to analyze the adsorption process and the surface chemistry on the supported Pt-NPs. The studied systems show significant catalytic activity in carbon monoxide oxidation on their surface at room temperature. The underlying catalytic mechanism is the water-gas shift reaction. In the case of alumina as the support the produced CO2 reacts with the surface to form carbonate, which is revealed by solid-state NMR. A similar carbonate formation is also observed when physical mixtures of neat alumina with silica, fumed silica and titania supported Pt-NPs are studied.","lang":"eng"}],"doi":"10.1039/c9cy00684b","title":"Room temperature CO oxidation catalysed by supported Pt nanoparticles revealed by solid-state NMR and DNP spectroscopy","extern":"1","user_id":"100715","keyword":["Chemistry","gamma-alumina","hydrogenation","silica","c-13","interactions","metal-catalysts","particle-size","platinum nanoparticles","sites","surface","water-gas shift"]},{"publication_status":"published","citation":{"short":"J.N. Andexer, U. Beifuss, F. Beuerle, M. Brasholz, R. Breinbauer, M. Ernst, T.A.M. Gulder, S. Kath‐Schorr, M. Kordes, M. Lehmann, T. Lindel, S. Lüdeke, B. Luy, M. Mantel, C. Mück‐Lichtenfeld, C. Muhle‐Goll, A. Narine, J. Niemeyer, R. Pfau, J. Pietruszka, N. Schaschke, M.O. Senge, B.F. Straub, T. Werner, D.B. Werz, C. Winter, Nachrichten Aus Der Chemie 67 (2019) 46–78.","mla":"Andexer, Jennifer N., et al. “Trendbericht Organische Chemie.” Nachrichten Aus Der Chemie, vol. 67, no. 3, Wiley, 2019, pp. 46–78, doi:10.1002/nadc.20194085243.","bibtex":"@article{Andexer_Beifuss_Beuerle_Brasholz_Breinbauer_Ernst_Gulder_Kath‐Schorr_Kordes_Lehmann_et al._2019, title={Trendbericht Organische Chemie}, volume={67}, DOI={10.1002/nadc.20194085243}, number={3}, journal={Nachrichten aus der Chemie}, publisher={Wiley}, author={Andexer, Jennifer N. and Beifuss, Uwe and Beuerle, Florian and Brasholz, Malte and Breinbauer, Rolf and Ernst, Martin and Gulder, Tobias A. M. and Kath‐Schorr, Stephanie and Kordes, Markus and Lehmann, Matthias and et al.}, year={2019}, pages={46–78} }","chicago":"Andexer, Jennifer N., Uwe Beifuss, Florian Beuerle, Malte Brasholz, Rolf Breinbauer, Martin Ernst, Tobias A. M. Gulder, et al. “Trendbericht Organische Chemie.” Nachrichten Aus Der Chemie 67, no. 3 (2019): 46–78. https://doi.org/10.1002/nadc.20194085243.","ieee":"J. N. Andexer et al., “Trendbericht Organische Chemie,” Nachrichten aus der Chemie, vol. 67, no. 3, pp. 46–78, 2019, doi: 10.1002/nadc.20194085243.","apa":"Andexer, J. N., Beifuss, U., Beuerle, F., Brasholz, M., Breinbauer, R., Ernst, M., Gulder, T. A. M., Kath‐Schorr, S., Kordes, M., Lehmann, M., Lindel, T., Lüdeke, S., Luy, B., Mantel, M., Mück‐Lichtenfeld, C., Muhle‐Goll, C., Narine, A., Niemeyer, J., Pfau, R., … Winter, C. (2019). Trendbericht Organische Chemie. Nachrichten Aus Der Chemie, 67(3), 46–78. https://doi.org/10.1002/nadc.20194085243","ama":"Andexer JN, Beifuss U, Beuerle F, et al. Trendbericht Organische Chemie. Nachrichten aus der Chemie. 2019;67(3):46-78. doi:10.1002/nadc.20194085243"},"department":[{"_id":"35"},{"_id":"2"},{"_id":"657"}],"author":[{"last_name":"Andexer","full_name":"Andexer, Jennifer N.","first_name":"Jennifer N."},{"last_name":"Beifuss","full_name":"Beifuss, Uwe","first_name":"Uwe"},{"full_name":"Beuerle, Florian","first_name":"Florian","last_name":"Beuerle"},{"full_name":"Brasholz, Malte","first_name":"Malte","last_name":"Brasholz"},{"last_name":"Breinbauer","full_name":"Breinbauer, Rolf","first_name":"Rolf"},{"last_name":"Ernst","first_name":"Martin","full_name":"Ernst, Martin"},{"full_name":"Gulder, Tobias A. M.","first_name":"Tobias A. M.","last_name":"Gulder"},{"full_name":"Kath‐Schorr, Stephanie","first_name":"Stephanie","last_name":"Kath‐Schorr"},{"last_name":"Kordes","full_name":"Kordes, Markus","first_name":"Markus"},{"full_name":"Lehmann, Matthias","first_name":"Matthias","last_name":"Lehmann"},{"last_name":"Lindel","first_name":"Thomas","full_name":"Lindel, Thomas"},{"last_name":"Lüdeke","full_name":"Lüdeke, Steffen","first_name":"Steffen"},{"last_name":"Luy","full_name":"Luy, Burkhard","first_name":"Burkhard"},{"first_name":"Marvin","full_name":"Mantel, Marvin","last_name":"Mantel"},{"last_name":"Mück‐Lichtenfeld","first_name":"Christian","full_name":"Mück‐Lichtenfeld, Christian"},{"full_name":"Muhle‐Goll, Claudia","first_name":"Claudia","last_name":"Muhle‐Goll"},{"first_name":"Arun","full_name":"Narine, Arun","last_name":"Narine"},{"last_name":"Niemeyer","full_name":"Niemeyer, Jochen","first_name":"Jochen"},{"last_name":"Pfau","first_name":"Roland","full_name":"Pfau, Roland"},{"full_name":"Pietruszka, Jörg","first_name":"Jörg","last_name":"Pietruszka"},{"last_name":"Schaschke","full_name":"Schaschke, Norbert","first_name":"Norbert"},{"first_name":"Mathias O.","full_name":"Senge, Mathias O.","last_name":"Senge"},{"last_name":"Straub","first_name":"Bernd F.","full_name":"Straub, Bernd F."},{"orcid":"0000-0001-9025-3244","id":"89271","last_name":"Werner","first_name":"Thomas","full_name":"Werner, Thomas"},{"first_name":"Daniel B.","full_name":"Werz, Daniel B.","last_name":"Werz"},{"last_name":"Winter","first_name":"Christian","full_name":"Winter, Christian"}],"intvolume":" 67","_id":"37964","date_updated":"2025-11-10T08:57:09Z","publisher":"Wiley","date_created":"2023-01-22T20:44:46Z","status":"public","publication_identifier":{"issn":["1439-9598","1868-0054"]},"year":"2019","language":[{"iso":"eng"}],"user_id":"89271","keyword":["General Chemical Engineering","General Chemistry"],"title":"Trendbericht Organische Chemie","doi":"10.1002/nadc.20194085243","volume":67,"page":"46-78","issue":"3","publication":"Nachrichten aus der Chemie","type":"journal_article"},{"citation":{"short":"T. Rösener, A. Hoffmann, S. Herres-Pawlis, European Journal of Inorganic Chemistry 2018 (2018) 3164–3175.","bibtex":"@article{Rösener_Hoffmann_Herres-Pawlis_2018, title={Next Generation of Guanidine Quinoline Copper Complexes for Highly Controlled ATRP: Influence of Backbone Substitution on Redox Chemistry and Solubility}, volume={2018}, DOI={10.1002/ejic.201800511}, number={27}, journal={European Journal of Inorganic Chemistry}, author={Rösener, Thomas and Hoffmann, Alexander and Herres-Pawlis, Sonja}, year={2018}, pages={3164–3175} }","mla":"Rösener, Thomas, et al. “Next Generation of Guanidine Quinoline Copper Complexes for Highly Controlled ATRP: Influence of Backbone Substitution on Redox Chemistry and Solubility.” European Journal of Inorganic Chemistry, vol. 2018, no. 27, 2018, pp. 3164–75, doi:10.1002/ejic.201800511.","ieee":"T. Rösener, A. Hoffmann, and S. Herres-Pawlis, “Next Generation of Guanidine Quinoline Copper Complexes for Highly Controlled ATRP: Influence of Backbone Substitution on Redox Chemistry and Solubility,” European Journal of Inorganic Chemistry, vol. 2018, no. 27, pp. 3164–3175, 2018.","chicago":"Rösener, Thomas, Alexander Hoffmann, and Sonja Herres-Pawlis. “Next Generation of Guanidine Quinoline Copper Complexes for Highly Controlled ATRP: Influence of Backbone Substitution on Redox Chemistry and Solubility.” European Journal of Inorganic Chemistry 2018, no. 27 (2018): 3164–75. https://doi.org/10.1002/ejic.201800511.","apa":"Rösener, T., Hoffmann, A., & Herres-Pawlis, S. (2018). Next Generation of Guanidine Quinoline Copper Complexes for Highly Controlled ATRP: Influence of Backbone Substitution on Redox Chemistry and Solubility. European Journal of Inorganic Chemistry, 2018(27), 3164–3175. https://doi.org/10.1002/ejic.201800511","ama":"Rösener T, Hoffmann A, Herres-Pawlis S. Next Generation of Guanidine Quinoline Copper Complexes for Highly Controlled ATRP: Influence of Backbone Substitution on Redox Chemistry and Solubility. European Journal of Inorganic Chemistry. 2018;2018(27):3164-3175. doi:10.1002/ejic.201800511"},"user_id":"40778","keyword":["Copper","Polymerization","Redox chemistry","Structure elucidation","Ligand effects"],"project":[{"name":"Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"}],"intvolume":" 2018","abstract":[{"lang":"eng","text":"Ligands DMEG6etqu, TMG6etqu, DMEG6buqu, and TMG6buqu were developed on the basis of guanidine quinoline (GUAqu) ligands 1,3-dimethyl-N-(quinolin-8-yl)imidazolidin-2-imine (DMEGqu) and 1,1,3,3-tetramethyl-2-(quinolin-8-yl)guanidine (TMGqu). These ligands feature an alkyl substituent at the C6 of the quinoline backbone. The synthetic strategy developed here enables inexpensive syntheses of any kind of C6-substituted GUAqu ligands. On one hand, the alkylation increases the solubility of corresponding copper complexes in apolar atom transfer radical polymerization (ATRP) monomers like styrene. On the other hand, it has a significant electronic influence and thus an effect on the donor properties of the new ligands. Seven CuI and CuII complexes of DMEG6etqu and TMG6etqu have been crystallized and were studied with regard to their structural and electrochemical properties. CuI and CuII complexes of DMEG6buqu and TMG6buqu turned out to be perfectly soluble in pure styrene even at room temperature, which makes them excellent catalysts in the ATRP of apolar monomers. The key characteristics of the ATRP equilibrium, KATRP and kact, were determined for the new complexes. In addition, we used our recently developed DFT methodology, NBO analysis, and isodesmic reactions to predict the influence of the introduced alkyl substituents. It turned out that high conformational freedom in the complex structures leads to a significant uncertainty in prediction of the thermodynamic properties."}],"doi":"10.1002/ejic.201800511","title":"Next Generation of Guanidine Quinoline Copper Complexes for Highly Controlled ATRP: Influence of Backbone Substitution on Redox Chemistry and Solubility","author":[{"full_name":"Rösener, Thomas","first_name":"Thomas","last_name":"Rösener"},{"full_name":"Hoffmann, Alexander","first_name":"Alexander","last_name":"Hoffmann"},{"last_name":"Herres-Pawlis","full_name":"Herres-Pawlis, Sonja","first_name":"Sonja"}],"date_updated":"2022-01-06T06:51:30Z","issue":"27","_id":"13186","page":"3164-3175","volume":2018,"type":"journal_article","year":"2018","language":[{"iso":"eng"}],"status":"public","publication":"European Journal of Inorganic Chemistry","date_created":"2019-09-11T11:00:06Z"},{"author":[{"full_name":"Li, Jie","first_name":"Jie","last_name":"Li"},{"last_name":"Yu","first_name":"Xiaoqian","full_name":"Yu, Xiaoqian"},{"last_name":"Herberg","id":"94","full_name":"Herberg, Artjom","first_name":"Artjom"},{"first_name":"Dirk","full_name":"Kuckling, Dirk","last_name":"Kuckling","id":"287"}],"article_type":"original","intvolume":" 40","publication_status":"published","citation":{"mla":"Li, Jie, et al. “Biomolecule Sensor Based on Azlactone‐Modified Hydrogel Films.” Macromolecular Rapid Communications, vol. 40, no. 7, 1800674, Wiley, 2018, doi:10.1002/marc.201800674.","bibtex":"@article{Li_Yu_Herberg_Kuckling_2018, title={Biomolecule Sensor Based on Azlactone‐Modified Hydrogel Films}, volume={40}, DOI={10.1002/marc.201800674}, number={71800674}, journal={Macromolecular Rapid Communications}, publisher={Wiley}, author={Li, Jie and Yu, Xiaoqian and Herberg, Artjom and Kuckling, Dirk}, year={2018} }","short":"J. Li, X. Yu, A. Herberg, D. Kuckling, Macromolecular Rapid Communications 40 (2018).","apa":"Li, J., Yu, X., Herberg, A., & Kuckling, D. (2018). Biomolecule Sensor Based on Azlactone‐Modified Hydrogel Films. Macromolecular Rapid Communications, 40(7), Article 1800674. https://doi.org/10.1002/marc.201800674","ama":"Li J, Yu X, Herberg A, Kuckling D. Biomolecule Sensor Based on Azlactone‐Modified Hydrogel Films. Macromolecular Rapid Communications. 2018;40(7). doi:10.1002/marc.201800674","chicago":"Li, Jie, Xiaoqian Yu, Artjom Herberg, and Dirk Kuckling. “Biomolecule Sensor Based on Azlactone‐Modified Hydrogel Films.” Macromolecular Rapid Communications 40, no. 7 (2018). https://doi.org/10.1002/marc.201800674.","ieee":"J. Li, X. Yu, A. Herberg, and D. Kuckling, “Biomolecule Sensor Based on Azlactone‐Modified Hydrogel Films,” Macromolecular Rapid Communications, vol. 40, no. 7, Art. no. 1800674, 2018, doi: 10.1002/marc.201800674."},"department":[{"_id":"163"}],"publisher":"Wiley","date_created":"2022-07-28T09:41:44Z","status":"public","publication_identifier":{"issn":["1022-1336","1521-3927"]},"year":"2018","language":[{"iso":"eng"}],"_id":"32444","date_updated":"2022-07-28T09:44:55Z","title":"Biomolecule Sensor Based on Azlactone‐Modified Hydrogel Films","doi":"10.1002/marc.201800674","user_id":"94","keyword":["Materials Chemistry","Polymers and Plastics","Organic Chemistry"],"publication":"Macromolecular Rapid Communications","type":"journal_article","volume":40,"issue":"7","article_number":"1800674"},{"page":"4017-4024","volume":37,"issue":"3","publication":"Proceedings of the Combustion Institute","type":"journal_article","user_id":"94996","keyword":["Physical and Theoretical Chemistry","Mechanical Engineering","General Chemical Engineering"],"title":"An experimental and numerical study of thermal and chemical structure of downward flame spread over PMMA surface in still air","doi":"10.1016/j.proci.2018.06.005","_id":"32484","date_updated":"2022-08-15T13:53:48Z","date_created":"2022-08-02T10:20:50Z","publisher":"Elsevier BV","publication_identifier":{"issn":["1540-7489"]},"year":"2018","language":[{"iso":"eng"}],"status":"public","citation":{"ieee":"O. P. Korobeinichev et al., “An experimental and numerical study of thermal and chemical structure of downward flame spread over PMMA surface in still air,” Proceedings of the Combustion Institute, vol. 37, no. 3, pp. 4017–4024, 2018, doi: 10.1016/j.proci.2018.06.005.","chicago":"Korobeinichev, O.P., A.I. Karpov, A.A. Bolkisev, A.A. Shaklein, M.B. Gonchikzhapov, A.A. Paletsky, A.G. Tereshchenko, A.G. Shmakov, I.E. Gerasimov, and A. Kumar. “An Experimental and Numerical Study of Thermal and Chemical Structure of Downward Flame Spread over PMMA Surface in Still Air.” Proceedings of the Combustion Institute 37, no. 3 (2018): 4017–24. https://doi.org/10.1016/j.proci.2018.06.005.","apa":"Korobeinichev, O. P., Karpov, A. I., Bolkisev, A. A., Shaklein, A. A., Gonchikzhapov, M. B., Paletsky, A. A., Tereshchenko, A. G., Shmakov, A. G., Gerasimov, I. E., & Kumar, A. (2018). An experimental and numerical study of thermal and chemical structure of downward flame spread over PMMA surface in still air. Proceedings of the Combustion Institute, 37(3), 4017–4024. https://doi.org/10.1016/j.proci.2018.06.005","ama":"Korobeinichev OP, Karpov AI, Bolkisev AA, et al. An experimental and numerical study of thermal and chemical structure of downward flame spread over PMMA surface in still air. Proceedings of the Combustion Institute. 2018;37(3):4017-4024. doi:10.1016/j.proci.2018.06.005","short":"O.P. Korobeinichev, A.I. Karpov, A.A. Bolkisev, A.A. Shaklein, M.B. Gonchikzhapov, A.A. Paletsky, A.G. Tereshchenko, A.G. Shmakov, I.E. Gerasimov, A. Kumar, Proceedings of the Combustion Institute 37 (2018) 4017–4024.","bibtex":"@article{Korobeinichev_Karpov_Bolkisev_Shaklein_Gonchikzhapov_Paletsky_Tereshchenko_Shmakov_Gerasimov_Kumar_2018, title={An experimental and numerical study of thermal and chemical structure of downward flame spread over PMMA surface in still air}, volume={37}, DOI={10.1016/j.proci.2018.06.005}, number={3}, journal={Proceedings of the Combustion Institute}, publisher={Elsevier BV}, author={Korobeinichev, O.P. and Karpov, A.I. and Bolkisev, A.A. and Shaklein, A.A. and Gonchikzhapov, M.B. and Paletsky, A.A. and Tereshchenko, A.G. and Shmakov, A.G. and Gerasimov, I.E. and Kumar, A.}, year={2018}, pages={4017–4024} }","mla":"Korobeinichev, O. P., et al. “An Experimental and Numerical Study of Thermal and Chemical Structure of Downward Flame Spread over PMMA Surface in Still Air.” Proceedings of the Combustion Institute, vol. 37, no. 3, Elsevier BV, 2018, pp. 4017–24, doi:10.1016/j.proci.2018.06.005."},"publication_status":"published","author":[{"last_name":"Korobeinichev","first_name":"O.P.","full_name":"Korobeinichev, O.P."},{"full_name":"Karpov, A.I.","first_name":"A.I.","last_name":"Karpov"},{"last_name":"Bolkisev","full_name":"Bolkisev, A.A.","first_name":"A.A."},{"last_name":"Shaklein","first_name":"A.A.","full_name":"Shaklein, A.A."},{"last_name":"Gonchikzhapov","first_name":"M.B.","full_name":"Gonchikzhapov, M.B."},{"last_name":"Paletsky","full_name":"Paletsky, A.A.","first_name":"A.A."},{"full_name":"Tereshchenko, A.G.","first_name":"A.G.","last_name":"Tereshchenko"},{"full_name":"Shmakov, A.G.","first_name":"A.G.","last_name":"Shmakov"},{"first_name":"I.E.","full_name":"Gerasimov, I.E.","last_name":"Gerasimov"},{"last_name":"Kumar","first_name":"A.","full_name":"Kumar, A."}],"intvolume":" 37"},{"author":[{"last_name":"Karpov","first_name":"A. I.","full_name":"Karpov, A. I."},{"last_name":"Korobeinichev","full_name":"Korobeinichev, O. P.","first_name":"O. P."},{"first_name":"A. A.","full_name":"Bolkisev, A. A.","last_name":"Bolkisev"},{"full_name":"Shaklein, A. A.","first_name":"A. A.","last_name":"Shaklein"},{"full_name":"Shmakov, A. G.","first_name":"A. G.","last_name":"Shmakov"},{"last_name":"Paletsky","full_name":"Paletsky, A. A.","first_name":"A. A."},{"first_name":"M. B.","full_name":"Gonchikzhapov, M. B.","last_name":"Gonchikzhapov"}],"intvolume":" 42","publication_status":"published","citation":{"short":"A.I. Karpov, O.P. Korobeinichev, A.A. Bolkisev, A.A. Shaklein, A.G. Shmakov, A.A. Paletsky, M.B. Gonchikzhapov, Fire and Materials 42 (2018) 826–833.","bibtex":"@article{Karpov_Korobeinichev_Bolkisev_Shaklein_Shmakov_Paletsky_Gonchikzhapov_2018, title={Numerical study of polyethylene burning in counterflow: Effect of pyrolysis kinetics and composition of pyrolysis products}, volume={42}, DOI={10.1002/fam.2638}, number={7}, journal={Fire and Materials}, publisher={Wiley}, author={Karpov, A. I. and Korobeinichev, O. P. and Bolkisev, A. A. and Shaklein, A. A. and Shmakov, A. G. and Paletsky, A. A. and Gonchikzhapov, M. B.}, year={2018}, pages={826–833} }","mla":"Karpov, A. I., et al. “Numerical Study of Polyethylene Burning in Counterflow: Effect of Pyrolysis Kinetics and Composition of Pyrolysis Products.” Fire and Materials, vol. 42, no. 7, Wiley, 2018, pp. 826–33, doi:10.1002/fam.2638.","ieee":"A. I. Karpov et al., “Numerical study of polyethylene burning in counterflow: Effect of pyrolysis kinetics and composition of pyrolysis products,” Fire and Materials, vol. 42, no. 7, pp. 826–833, 2018, doi: 10.1002/fam.2638.","chicago":"Karpov, A. I., O. P. Korobeinichev, A. A. Bolkisev, A. A. Shaklein, A. G. Shmakov, A. A. Paletsky, and M. B. Gonchikzhapov. “Numerical Study of Polyethylene Burning in Counterflow: Effect of Pyrolysis Kinetics and Composition of Pyrolysis Products.” Fire and Materials 42, no. 7 (2018): 826–33. https://doi.org/10.1002/fam.2638.","ama":"Karpov AI, Korobeinichev OP, Bolkisev AA, et al. Numerical study of polyethylene burning in counterflow: Effect of pyrolysis kinetics and composition of pyrolysis products. Fire and Materials. 2018;42(7):826-833. doi:10.1002/fam.2638","apa":"Karpov, A. I., Korobeinichev, O. P., Bolkisev, A. A., Shaklein, A. A., Shmakov, A. G., Paletsky, A. A., & Gonchikzhapov, M. B. (2018). Numerical study of polyethylene burning in counterflow: Effect of pyrolysis kinetics and composition of pyrolysis products. Fire and Materials, 42(7), 826–833. https://doi.org/10.1002/fam.2638"},"publisher":"Wiley","date_created":"2022-08-02T10:20:27Z","status":"public","year":"2018","publication_identifier":{"issn":["0308-0501"]},"language":[{"iso":"eng"}],"_id":"32483","date_updated":"2022-08-15T13:53:53Z","title":"Numerical study of polyethylene burning in counterflow: Effect of pyrolysis kinetics and composition of pyrolysis products","doi":"10.1002/fam.2638","user_id":"94996","keyword":["Metals and Alloys","Polymers and Plastics","General Chemistry","Ceramics and Composites","Electronic","Optical and Magnetic Materials"],"publication":"Fire and Materials","type":"journal_article","volume":42,"page":"826-833","issue":"7"}]