Folgen
Chen Cai
Chen Cai
University of Virignia
Bestätigte E-Mail-Adresse bei virginia.edu
Titel
Zitiert von
Zitiert von
Jahr
Flexible narrowband ultraviolet photodetectors with photomultiplication based on wide band gap conjugated polymer and inorganic nanoparticles
X Zhang, E Zheng, MR Esopi, C Cai, Q Yu
ACS applied materials & interfaces 10 (28), 24064-24074, 2018
312018
Narrowband ultraviolet photodetectors based on nanocomposite thin films with high gain and low driving voltage
E Zheng, X Zhang, MR Esopi, C Cai, B Zhou, YY Lin, Q Yu
ACS applied materials & interfaces 10 (48), 41552-41561, 2018
282018
Tuning the spectral response of ultraviolet organic–inorganic hybrid photodetectors via charge trapping and charge collection narrowing
MR Esopi, E Zheng, X Zhang, C Cai, Q Yu
Physical Chemistry Chemical Physics 20 (16), 11273-11284, 2018
242018
Pore microstructure impacts on lithium ion transport and rate capability of thick sintered electrodes
Z Nie, R Parai, C Cai, C Michaelis, JM LaManna, DS Hussey, ...
Journal of The Electrochemical Society 168 (6), 060550, 2021
112021
Thick sintered electrode lithium-ion battery discharge simulations: incorporating lithiation-dependent electronic conductivity and lithiation gradient due to charge cycle
C Cai, Z Nie, JP Robinson, DS Hussey, JM LaManna, DL Jacobson, ...
Journal of The Electrochemical Society 167 (14), 140542, 2020
92020
Improving high rate cycling limitations of thick sintered battery electrodes by mitigating molecular transport limitations through modifying electrode microstructure and …
Z Nie, R Parai, C Cai, D Ghosh, GM Koenig
Molecular Systems Design & Engineering 6 (9), 708-712, 2021
72021
Investigating dopants to improve sintered LiMn2O4 spinel electrode electrochemical cycling limitations
C Cai, GM Koenig Jr
Electrochimica Acta 401, 139484, 2022
52022
Comparative analysis of chemical redox between redox shuttles and a lithium-ion cathode material via electrochemical analysis of redox shuttle conversion
D Gupta, C Cai, GM Koenig
Journal of The Electrochemical Society 168 (5), 050546, 2021
52021
Anisotropic particle synthesis and characterization for lithium-ion battery electrode materials via precursor precipitate growth inhibitor
C Cai, H Dong, GM Koenig Jr
Powder Technology 394, 214-224, 2021
42021
Multicomponent two-layered cathode for thick sintered lithium-ion batteries
C Cai, Z Nie, GM Koenig
Materials Advances, 2022
12022
Material and Processing Considerations for Thick All Active Material Mildly Sintered Lithium-Ion Electrodes
G Koenig, C Cai, Z Nie
ECS Meeting Abstracts, 305, 2022
2022
Simulated discharge overpotential distributions for sintered electrode batteries in rechargeable coin cell form factors
C Cai, D Hensley, GM Koenig Jr
Journal of Energy Storage 54, 105218, 2022
2022
Investigating Pore Microstructure Effects on Sintered Electrode Transport and Rate Capability
Z Nie, R Parai, C Cai, C Michaelis, JM LaManna, D Hussey, D Jacobson, ...
ECS Meeting Abstracts, 1816, 2021
2021
Simulations of Lithium-Ion Batteries with Thick Sintered Electrodes
C Cai, Z Nie, P Robinson, D Hussey, JM LaManna, D Jacobson, G Koenig
ECS Meeting Abstracts, 163, 2021
2021
Electrode Microstructure and Electrolyte Conductivity Modifications to Improve Thick Sintered Electrode Rate Capability
Z Nie, R Parai, C Cai, D Ghosh, G Koenig
ECS Meeting Abstracts, 1817, 2021
2021
Thick Sintered Electrodes with Porosity Gradients to Facilitate Ion Transport
C Cai, Z Nie, G Koenig
ECS Meeting Abstracts, 494, 2021
2021
Comparison and Combination of Pseudo Two-Dimensional and Machine Learning Models for Prediction of Electrochemical Properties of Thick Sintered Lithium-Ion Battery Electrodes
C Cai, S Liu, Z Nie, KY Kim, G Koenig
ECS Meeting Abstracts, 282, 2021
2021
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–17