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R. Tanim et al., “Heterogeneous Behavior of Lithium Plating during Extreme Fast Charging,” Cell Reports Physical Science, vol. 1, p. 100114, 2020, doi: 10.1016/j.xcrp.2020.100114.","chicago":"Tanim, Tanvir R., Partha P. Paul, Vivek Thampy, Chuntian Cao, Hans-Georg Steinrück, Johanna Nelson Weker, Michael F. Toney, et al. “Heterogeneous Behavior of Lithium Plating during Extreme Fast Charging.” Cell Reports Physical Science 1 (2020): 100114. https://doi.org/10.1016/j.xcrp.2020.100114.","ama":"Tanim TR, Paul PP, Thampy V, et al. Heterogeneous Behavior of Lithium Plating during Extreme Fast Charging. Cell Reports Physical Science. 2020;1:100114. doi:10.1016/j.xcrp.2020.100114","apa":"Tanim, T. R., Paul, P. P., Thampy, V., Cao, C., Steinrück, H.-G., Nelson Weker, J., Toney, M. F., Dufek, E. J., Evans, M. C., Jansen, A. N., Polzin, B. J., Dunlop, A. R., & Trask, S. E. (2020). Heterogeneous Behavior of Lithium Plating during Extreme Fast Charging. 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Trask, Cell Reports Physical Science 1 (2020) 100114."},"intvolume":" 1","page":"100114","year":"2020","publication_status":"published","publication_identifier":{"issn":["2666-3864"]}},{"status":"public","publication":"Joule","type":"journal_article","language":[{"iso":"eng"}],"_id":"23603","department":[{"_id":"633"}],"user_id":"84268","year":"2020","intvolume":" 4","page":"1637-1659","citation":{"apa":"Bone, S. E., Steinrück, H.-G., & Toney, M. F. (2020). Advanced Characterization in Clean Water Technologies. Joule, 4, 1637–1659. https://doi.org/10.1016/j.joule.2020.06.020","short":"S.E. Bone, H.-G. Steinrück, M.F. 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Investigation of the mechanisms underlying control of electrodeposited lithium metal morphology using electrolyte additives in lithium metal batteries.

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Toney, Journal of Materials Chemistry A 8 (2020) 16960–16972.","mla":"Kasse, Robert M., et al. “Understanding Additive Controlled Lithium Morphology in Lithium Metal Batteries.” Journal of Materials Chemistry A, vol. 8, 2020, pp. 16960–72, doi:10.1039/d0ta06020h."},"page":"16960-16972","intvolume":" 8","date_updated":"2022-01-06T06:55:57Z","date_created":"2021-09-01T09:08:25Z","author":[{"full_name":"Kasse, Robert M.","last_name":"Kasse","first_name":"Robert M."},{"last_name":"Geise","full_name":"Geise, Natalie R.","first_name":"Natalie R."},{"full_name":"Ko, Jesse S.","last_name":"Ko","first_name":"Jesse S."},{"last_name":"Nelson Weker","full_name":"Nelson Weker, Johanna","first_name":"Johanna"},{"first_name":"Hans-Georg","last_name":"Steinrück","orcid":"0000-0001-6373-0877","full_name":"Steinrück, Hans-Georg","id":"84268"},{"last_name":"Toney","full_name":"Toney, Michael F.","first_name":"Michael F."}],"volume":8,"title":"Understanding additive controlled lithium morphology in lithium metal batteries","doi":"10.1039/d0ta06020h"},{"volume":32,"author":[{"first_name":"Bryan D.","full_name":"Paulsen, Bryan D.","last_name":"Paulsen"},{"last_name":"Wu","full_name":"Wu, Ruiheng","first_name":"Ruiheng"},{"full_name":"Takacs, Christopher J.","last_name":"Takacs","first_name":"Christopher J."},{"last_name":"Steinrück","orcid":"0000-0001-6373-0877","full_name":"Steinrück, Hans-Georg","id":"84268","first_name":"Hans-Georg"},{"last_name":"Strzalka","full_name":"Strzalka, Joseph","first_name":"Joseph"},{"first_name":"Qingteng","last_name":"Zhang","full_name":"Zhang, Qingteng"},{"first_name":"Michael F.","last_name":"Toney","full_name":"Toney, Michael F."},{"first_name":"Jonathan","full_name":"Rivnay, Jonathan","last_name":"Rivnay"}],"date_created":"2021-09-01T09:08:32Z","date_updated":"2022-01-06T06:55:57Z","doi":"10.1002/adma.202003404","title":"Time‐Resolved Structural Kinetics of an Organic Mixed Ionic–Electronic Conductor","publication_identifier":{"issn":["0935-9648","1521-4095"]},"publication_status":"published","intvolume":" 32","page":"2003404","citation":{"ieee":"B. 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Rivnay, Advanced Materials 32 (2020) 2003404.","mla":"Paulsen, Bryan D., et al. “Time‐Resolved Structural Kinetics of an Organic Mixed Ionic–Electronic Conductor.” Advanced Materials, vol. 32, 2020, p. 2003404, doi:10.1002/adma.202003404.","bibtex":"@article{Paulsen_Wu_Takacs_Steinrück_Strzalka_Zhang_Toney_Rivnay_2020, title={Time‐Resolved Structural Kinetics of an Organic Mixed Ionic–Electronic Conductor}, volume={32}, DOI={10.1002/adma.202003404}, journal={Advanced Materials}, author={Paulsen, Bryan D. and Wu, Ruiheng and Takacs, Christopher J. and Steinrück, Hans-Georg and Strzalka, Joseph and Zhang, Qingteng and Toney, Michael F. and Rivnay, Jonathan}, year={2020}, pages={2003404} }"},"year":"2020","department":[{"_id":"633"}],"user_id":"84268","_id":"23605","language":[{"iso":"eng"}],"publication":"Advanced Materials","type":"journal_article","status":"public"},{"title":"Interfacial Speciation Determines Interfacial Chemistry: X‐ray‐Induced Lithium Fluoride Formation from Water‐in‐salt Electrolytes on Solid Surfaces","doi":"10.1002/anie.202007745","date_updated":"2022-01-06T06:55:57Z","date_created":"2021-09-01T09:08:37Z","author":[{"first_name":"Hans-Georg","id":"84268","full_name":"Steinrück, Hans-Georg","orcid":"0000-0001-6373-0877","last_name":"Steinrück"},{"first_name":"Chuntian","last_name":"Cao","full_name":"Cao, Chuntian"},{"first_name":"Maria R.","full_name":"Lukatskaya, Maria R.","last_name":"Lukatskaya"},{"first_name":"Christopher J.","full_name":"Takacs, Christopher J.","last_name":"Takacs"},{"full_name":"Wan, Gang","last_name":"Wan","first_name":"Gang"},{"first_name":"David G.","full_name":"Mackanic, David G.","last_name":"Mackanic"},{"full_name":"Tsao, Yuchi","last_name":"Tsao","first_name":"Yuchi"},{"first_name":"Jingbo","full_name":"Zhao, Jingbo","last_name":"Zhao"},{"last_name":"Helms","full_name":"Helms, Brett A.","first_name":"Brett A."},{"first_name":"Kang","last_name":"Xu","full_name":"Xu, Kang"},{"last_name":"Borodin","full_name":"Borodin, Oleg","first_name":"Oleg"},{"first_name":"James F.","full_name":"Wishart, James F.","last_name":"Wishart"},{"last_name":"Toney","full_name":"Toney, Michael F.","first_name":"Michael F."}],"volume":59,"year":"2020","citation":{"apa":"Steinrück, H.-G., Cao, C., Lukatskaya, M. 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Steinrück, C. Cao, M.R. Lukatskaya, C.J. Takacs, G. Wan, D.G. Mackanic, Y. Tsao, J. Zhao, B.A. Helms, K. Xu, O. Borodin, J.F. Wishart, M.F. Toney, Angewandte Chemie International Edition 59 (2020) 23180–23187.","ieee":"H.-G. Steinrück et al., “Interfacial Speciation Determines Interfacial Chemistry: X‐ray‐Induced Lithium Fluoride Formation from Water‐in‐salt Electrolytes on Solid Surfaces,” Angewandte Chemie International Edition, vol. 59, pp. 23180–23187, 2020, doi: 10.1002/anie.202007745.","chicago":"Steinrück, Hans-Georg, Chuntian Cao, Maria R. Lukatskaya, Christopher J. Takacs, Gang Wan, David G. Mackanic, Yuchi Tsao, et al. “Interfacial Speciation Determines Interfacial Chemistry: X‐ray‐Induced Lithium Fluoride Formation from Water‐in‐salt Electrolytes on Solid Surfaces.” Angewandte Chemie International Edition 59 (2020): 23180–87. https://doi.org/10.1002/anie.202007745.","ama":"Steinrück H-G, Cao C, Lukatskaya MR, et al. Interfacial Speciation Determines Interfacial Chemistry: X‐ray‐Induced Lithium Fluoride Formation from Water‐in‐salt Electrolytes on Solid Surfaces. 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Steinrück, C.J. Takacs, H.-K. Kim, D.G. Mackanic, B. Holladay, C. Cao, S. Narayanan, E.M. Dufresne, Y. Chushkin, B. Ruta, F. Zontone, J. Will, O. Borodin, S.K. Sinha, V. Srinivasan, M.F. Toney, Energy & Environmental Science 13 (2020) 4312–4321.","mla":"Steinrück, Hans-Georg, et al. “Concentration and Velocity Profiles in a Polymeric Lithium-Ion Battery Electrolyte.” Energy & Environmental Science, vol. 13, 2020, pp. 4312–21, doi:10.1039/d0ee02193h.","apa":"Steinrück, H.-G., Takacs, C. J., Kim, H.-K., Mackanic, D. G., Holladay, B., Cao, C., Narayanan, S., Dufresne, E. M., Chushkin, Y., Ruta, B., Zontone, F., Will, J., Borodin, O., Sinha, S. K., Srinivasan, V., & Toney, M. F. (2020). Concentration and velocity profiles in a polymeric lithium-ion battery electrolyte. Energy & Environmental Science, 13, 4312–4321. https://doi.org/10.1039/d0ee02193h","ama":"Steinrück H-G, Takacs CJ, Kim H-K, et al. Concentration and velocity profiles in a polymeric lithium-ion battery electrolyte. 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Direct measurements of concentration and velocity profiles in a polymeric lithium-ion battery electrolyte provide insights into the transference number.

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