|Toward low-cost, high-energy density, and high-power density lithium-ion batteries|
J Li, Z Du, RE Ruther, SJ An, LA David, K Hays, M Wood, ND Phillip, ...
Jom 69, 1484-1496, 2017
|Revisit carbon/sulfur composite for Li-S batteries|
J Zheng, M Gu, MJ Wagner, KA Hays, X Li, P Zuo, C Wang, JG Zhang, ...
Journal of The Electrochemical Society 160 (10), A1624, 2013
|What makes lithium substituted polyacrylic acid a better binder than polyacrylic acid for silicon-graphite composite anodes?|
KA Hays, RE Ruther, AJ Kukay, P Cao, T Saito, DL Wood III, J Li
Journal of Power Sources 384, 136-144, 2018
|Chemical evolution in silicon–graphite composite anodes investigated by vibrational spectroscopy|
RE Ruther, KA Hays, SJ An, J Li, DL Wood, J Nanda
ACS applied materials & interfaces 10 (22), 18641-18649, 2018
|Perspectives on the relationship between materials chemistry and roll-to-roll electrode manufacturing for high-energy lithium-ion batteries|
DL Wood III, M Wood, J Li, Z Du, RE Ruther, KA Hays, N Muralidharan, ...
Energy Storage Materials 29, 254-265, 2020
|Probing electrolyte solvents at solid/liquid interface using gap-mode surface-enhanced Raman spectroscopy|
G Yang, RL Sacci, IN Ivanov, RE Ruther, KA Hays, Y Zhang, PF Cao, ...
Journal of The Electrochemical Society 166 (2), A178, 2019
|Intrinsic chemical reactivity of silicon electrode materials: gas evolution|
CL Seitzinger, RL Sacci, JE Coyle, CA Apblett, KA Hays, RR Armstrong, ...
Chemistry of Materials 32 (7), 3199-3210, 2020
|Si Oxidation and H2 Gassing During Aqueous Slurry Preparation for Li-Ion Battery Anodes|
KA Hays, B Key, J Li, DL Wood III, GM Veith
The Journal of Physical Chemistry C 122 (18), 9746-9754, 2018
|Effect of formation protocol: Cells containing Si-Graphite composite electrodes|
ND Rago, JK Basco, A Vu, J Li, K Hays, Y Sheng, DL Wood III, I Bloom
Journal of Power Sources 435, 126548, 2019
|Ending the chase for a perfect binder: role of surface chemistry variation and its influence on silicon anodes|
KA Hays, B Armstrong, GM Veith
ChemElectroChem 7 (18), 3790-3797, 2020
|High performance arsenic: Multiwall carbon nanotube composite anodes for Li-ion batteries|
KA Hays, NA Banek, MJ Wagner
Journal of The Electrochemical Society 164 (7), A1635, 2017
|Role of silicon-graphite homogeneity as promoted by low molecular weight dispersants|
BL Armstrong, KA Hays, RE Ruther, WB Hawley, A Rogers, I Greeley, ...
Journal of Power Sources 517, 230671, 2022
|Hollow carbon nanosphere composite based secondary cell electrodes|
M Wagner, N Banek, H Kevin
US Patent 10,511,017, 2019
|High capacity silicon/multiwall graphene nanoshell Li-ion battery anodes from a low-temperature, high-yield and scalable green synthesis|
NA Banek, KA Hays, MJ Wagner
Journal of The Electrochemical Society 164 (7), A1569, 2017
|The preparation and chemical reaction kinetics of tungsten bronze thin films and nitrobenzene with and without a catalyst|
NF Materer, A Apblett, EB Kadossov, KR Khan, W Casper IV, K Hays, ...
Surface Science 648, 345-351, 2016
|Zhijia Du, Rose E. Ruther, Seong Jin An, Lamuel Abraham David, Kevin Hays, Marissa Wood, et al. 2017.“Toward Low-Cost, High-Energy Density, and High-Power Density Lithium-Ion …|
JOM 69 (9), 1484-96, 0
|Considerations in electrode prepartion of Si-based slurries for comercial Li-ion batteries|
KA Hays, GM Veith, B Key, J Li, Y Sheng, DL Wood III
Electrochemical Society Meeting Abstracts 232, 395-395, 2017
|Magnetic properties of nickel halide hydrates including deuteration effects|
GC DeFotis, MJ Van Dongen, AS Hampton, CH Komatsu, KT Trowell, ...
Journal of Magnetism and Magnetic Materials 421, 393-402, 2017
|Magnetic behavior of manganese bromide hydrates including deuteration effects|
GC DeFotis, MJ Van Dongen, AS Hampton, CH Komatsu, JM Pothen, ...
Journal of Magnetism and Magnetic Materials 410, 63-71, 2016
|Interfacial reaction dependent performance of Hollow Carbon NanoSphere–Sulfur composite as a cathode for Li-S battery|
J Zheng, P Yan, M Gu, MJ Wagner, KA Hays, J Chen, X Li, C Wang, ...
Frontiers in Energy Research 3, 25, 2015