K
Killian R. Tallman
Researcher at Stony Brook University
Publications - 18
Citations - 307
Killian R. Tallman is an academic researcher from Stony Brook University. The author has contributed to research in topics: Electrode & Manganese. The author has an hindex of 6, co-authored 15 publications receiving 96 citations. Previous affiliations of Killian R. Tallman include Brookhaven National Laboratory.
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Journal ArticleDOI
Regulating electrodeposition morphology in high-capacity aluminium and zinc battery anodes using interfacial metal–substrate bonding
Jingxu Zheng,David C. Bock,Tian Tang,Qing Zhao,Jiefu Yin,Killian R. Tallman,Garrett P. Wheeler,Xiaotun Liu,Yue Deng,Shuo Jin,Amy C. Marschilok,Amy C. Marschilok,Esther S. Takeuchi,Esther S. Takeuchi,Kenneth J. Takeuchi,Lynden A. Archer +15 more
TL;DR: In this paper, an oxygen-mediated metal-substrate bonding strategy was proposed to regulate metal deposition and demonstrate highly reversible Al and Zn anodes, and the reversibility is sustained over unusually long cycling times (>3,600 hours) and at areal capacities up to two orders of magnitude higher than previously reported values.
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Nonplanar Electrode Architectures for Ultrahigh Areal Capacity Batteries
Jingxu Zheng,Qing Zhao,Xiaotun Liu,Tian Tang,David C. Bock,Andrea M. Bruck,Killian R. Tallman,Lisa M. Housel,Andrew M. Kiss,Amy C. Marschilok,Amy C. Marschilok,Esther S. Takeuchi,Esther S. Takeuchi,Kenneth J. Takeuchi,Lynden A. Archer +14 more
TL;DR: In this article, the design of a battery electrode architecture in which ion and electronic transport pathways are contiguous and span the entire volume of a thick, nonplanar electrode is described. But it is not shown how to construct such an electrode.
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Anode Overpotential Control via Interfacial Modification: Inhibition of Lithium Plating on Graphite Anodes.
Killian R. Tallman,Bingjie Zhang,Lei Wang,Shan Yan,Katherine Thompson,Xiao Tong,Juergen Thieme,Andrew M. Kiss,Amy C. Marschilok,Kenneth J. Takeuchi,David C. Bock,Esther S. Takeuchi +11 more
TL;DR: D deliberate interfacial modification of graphite electrodes via DC magnetron sputtering of nanoscale layers of Cu and Ni is employed to increase the overpotential for Li deposition and suppress Li plating under high rate charge conditions.
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Nickel-rich Nickel Manganese Cobalt (NMC622) Cathode Lithiation Mechanism and Extended Cycling Effects Using Operando X-ray Absorption Spectroscopy
Killian R. Tallman,Garrett P. Wheeler,Garrett P. Wheeler,Christopher J. Kern,Eli Stavitski,Xiao Tong,Kenneth J. Takeuchi,Amy C. Marschilok,David C. Bock,David C. Bock,Esther S. Takeuchi +10 more
TL;DR: LiNi0.6Mn0.2Co 0.2O2 (NMC622) offers a unique balance of thermal stability and energy density, t....
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Isothermal Microcalorimetry: Insight into the Impact of Crystallite Size and Agglomeration on the Lithiation of Magnetite, Fe3O4.
Matthew M. Huie,David C. Bock,Andrea M. Bruck,Killian R. Tallman,Lisa M. Housel,Lei Wang,Juergen Thieme,Kenneth J. Takeuchi,Esther S. Takeuchi,Amy C. Marschilok +9 more
TL;DR: Results rationalize the IMC data, where agglomerates of the 12 nm material limit solid electrolyte interphase formation and parasitic heat generation during lithiation of Fe3O4, and suggest that Li+ transport is more restricted for the smaller crystallite size (12 nm) material, attributed to its greater degree of agglomersation.