Tianyuan Liu
Tianyuan Liu
Reynolds American Inc
Verified email at rjrt.com
Cited by
Cited by
Self-polymerized dopamine as an organic cathode for Li-and Na-ion batteries
T Liu, KC Kim, B Lee, Z Chen, S Noda, SS Jang, SW Lee
Energy & Environmental Science 10 (1), 205-215, 2017
First-Principles Density Functional Theory Modeling of Li Binding: Thermodynamics and Redox Properties of Quinone Derivatives for Lithium-Ion Batteries
KC Kim, T Liu, SW Lee, SS Jang
Journal of the American Chemical Society 138 (7), 2374-2382, 2016
Pt− Ni octahedral nanocrystals as a class of highly active electrocatalysts toward hydrogen evolution reaction in an alkaline electrolyte
R Kavian, SI Choi, J Park, T Liu, HC Peng, N Lu, J Wang, MJ Kim, Y Xia, ...
Journal of Materials Chemistry A, 2016
High-Density Lithium-Ion Energy Storage Utilizing the Surface Redox Reactions in Folded Graphene Films
T Liu, KC Kim, R Kavian, SS Jang, SW Lee
Chemistry of Materials 27 (9), 3291-3298, 2015
Submicron silicon encapsulated with graphene and carbon as a scalable anode for lithium-ion batteries
B Lee, T Liu, SK Kim, H Chang, K Eom, L Xie, S Chen, HD Jang, SW Lee
Carbon 119, 438-445, 2017
In Situ Polymerization of Dopamine on Graphene Framework for Charge Storage Applications
T Liu, B Lee, BG Kim, MJ Lee, J Park, SW Lee
Small 14 (34), 1801236, 2018
Biomass-derived carbonaceous positive electrodes for sustainable lithium-ion storage
T Liu, R Kavian, Z Chen, SS Cruz, S Noda, SW Lee
Nanoscale 8 (6), 3671-3677, 2016
Self-Assembled, Redox-Active Graphene Electrodes for High-Performance Energy Storage Devices
T Liu, R Kavian, I Kim, SW Lee
The journal of physical chemistry letters 5 (24), 4324-4330, 2014
Hierarchical networks of redox-active reduced crumpled graphene oxide and functionalized few-walled carbon nanotubes for rapid electrochemical energy storage
B Lee, C Lee, T Liu, K Eom, Z Chen, S Noda, TF Fuller, HD Jang, SW Lee
Nanoscale 8 (24), 12330-12338, 2016
Systematic Molecular Design of Ketone Derivatives of Aromatic Molecules for Lithium‐Ion Batteries: First‐Principles DFT Modeling
JH Park, T Liu, KC Kim, SW Lee, SS Jang
ChemSusChem 10 (7), 1584-1591, 2017
Selective Growth of Metal‐Free Metallic and Semiconducting Single‐Wall Carbon Nanotubes
L Zhang, DM Sun, PX Hou, C Liu, T Liu, J Wen, N Tang, J Luan, C Shi, ...
Advanced Materials 29 (32), 1605719, 2017
Improved Capacity of Redox-Active Functional Carbon Cathode by Dimension Reduction for Hybrid Supercapacitors
T Liu, B Lee, MJ Lee, J Park, Z Chen, S Noda, SW Lee
Journal of Materials Chemistry A, 2018
High surface area carbon from polyacrylonitrile for high-performance electrochemical capacitive energy storage
K Gupta, T Liu, R Kavian, HG Chae, GH Ryu, Z Lee, SW Lee, S Kumar
Journal of Materials Chemistry A 4 (47), 18294-18299, 2016
Hydrothermally Oxidized Single‐Walled Carbon Nanotube Networks for High Volumetric Electrochemical Energy Storage
T Liu, AAB Davijani, J Sun, S Chen, S Kumar, SW Lee
Small 12 (25), 3423-3431, 2016
Growth of double-walled carbon nanotubes from silicon oxide nanoparticles
TY Liu, LL Zhang, WJ Yu, SS Li, PX Hou, HT Cong, C Liu, HM Cheng
Carbon 56, 167-172, 2013
Unveiled correlations between electron affinity and solvation in redox potential of quinone-based sodium-ion batteries
KC Kim, T Liu, KH Jung, SW Lee, SS Jang
Energy Storage Materials, 2019
Enhanced Lithium Storage of an Organic Cathode via the Bipolar Mechanism
T Liu, KC Kim, B Lee, S Jin, MJ Lee, M Li, S Noda, SS Jang, SW Lee
ACS Applied Energy Materials 3 (4), 3728-3735, 2020
Honeycomb-like single-wall carbon nanotube networks
S Li, PX Hou, C Liu, T Liu, WS Li, JC Li, HM Cheng
Journal of Materials Chemistry A 2 (10), 3308-3311, 2014
Interfacial Li-Ion Storage between Graphene Layers
J Park, C Perini, T Liu, J Hankinson, EM Vogel, M Navaei, SW Lee, I Stern
ECS Transactions 77 (11), 19-25, 2017
Redox-Active Carbon-Based Electrodes for High-Performance Electrochemical Energy Storage Devices
T Liu
Georgia Institute of Technology, 2018
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