| 1 - 8 |
Composition- and shape-controlled synthesis of the PtNi alloy nanotubes with enhanced activity and durability toward oxygen reduction reaction
Fan CT, Wang GL, Zou LL, Fang JH, Zou ZQ, Yang H |
| 9 - 16 |
Hollow carbon polyhedra derived from room temperature synthesized iron-based metal-organic frameworks for supercapacitors
Zhuang JL, Liu XY, Mao HL, Wang C, Cheng H, Zhang Y, Du X, Zhu SB, Ren B |
| 17 - 21 |
Tavorite LiFePO4OH hydroxyphosphate as an anode for aqueous lithium-ion batteries
Sharma L, Nakamoto K, Okada S, Barpanda P |
| 22 - 29 |
Conductive metal-organic framework with redox metal center as cathode for high rate performance lithium ion battery
Gu SN, Bai ZW, Majumder S, Huang BL, Chen GH |
| 30 - 37 |
Effect of the ceramic membrane properties on the microbial fuel cell power output and catholyte generation
Merino-Jimenez I, Gonzalez-Juarez F, Greenman J, Ieropoulos I |
| 38 - 45 |
Suppressing phase transition and improving electrochemical performances of O3-NaNi1/3Mn1/3Fe1/3O2 through ionic conductive Na2SiO3 coating
Li N, Ren J, Dang RB, Wu K, Lee YL, Hu ZB, Xiao XL |
| 46 - 54 |
All-in-one surface engineering strategy on nickel phosphide arrays towards a robust electrocatalyst for hydrogen evolution reaction
Liu BT, Wu CR, Chen G, Chen WB, Peng LL, Yao YC, Wei Z, Zhu H, Han T, Tang DY, Zhou M |
| 55 - 66 |
Research on a multi-objective hierarchical prediction energy management strategy for range extended fuel cell vehicles
Liu YG, Li J, Chen Z, Qin DT, Zhang Y |
| 67 - 74 |
Improving the graphite/electrolyte interface in lithium-ion battery for fast charging and low temperature operation: Fluorosulfonyl isocyanate as electrolyte additive
Shi JL, Ehteshami N, Ma JL, Zhang H, Liu HD, Zhang X, Li J, Paillard E |
| 75 - 79 |
Highly dense perovskite electrolyte with a high Li+ conductivity for Li-ion batteries
Huang B, Zhong SW, Luo JB, Huang ZY, Wang CA |
| 80 - 88 |
Numerical investigation of thermal runaway mitigation through a passive thermal management system
Li QB, Yang CB, Santhanagopalan S, Smith K, Lamb J, Steele LA, Torres-Castro L |
| 89 - 96 |
LiSnOS/gel polymer hybrid electrolyte for the safer and performance-enhanced solid-state LiCoO2/Li lithium-ion battery
Kuo DH, Lo R, Hsueh TH, Jan DJ, Su CH |
| 97 - 104 |
Nano-fabrication of a high-performance LaNiO3 cathode for solid oxide fuel cells using an electrochemical route
Rehman SU, Shaur A, Song RH, Lim TH, Hong JE, Park SJ, Lee SB |
| 105 - 110 |
A solid phase bacteria-powered biobattery for low-power, low-cost, internet of Disposable Things
Mohammadifar M, Choi S |
| 111 - 119 |
Development of a facile and low-cost chitosan-modified carbon cloth for efficient self-pumping enzymatic biofuel cells
Duong NB, Wang CL, Huang LZ, Fang WT, Yang H |
| 120 - 126 |
Tunable electronic structures and high efficiency obtained by introducing superalkali and superhalogen into AMX(3)-type perovskites
Zhou TW, Zhang YB, Wang M, Zang ZG, Tang XS |
| 127 - 148 |
Investigation on part-load performances of combined cooling and power system primed by solid oxide fuel cell with different bottoming cycles
Luo XJ, Fong KF |
| 149 - 155 |
Na4MnV(PO4)(3)-rGO as Advanced cathode for aqueous and non-aqueous sodium ion batteries
Kumar PR, Kheireddine A, Nisar U, Shakoor RA, Essehli R, Amin R, Belharouak I |
| 156 - 167 |
Electrodeposited Ni-Co-P hierarchical nanostructure as a cost-effective and durable electrocatalyst with superior activity for bifunctional water splitting
Darband GB, Aliofkhazraei M, Hyun S, Rouhaghdam AS, Shanmugam S |
| 168 - 179 |
Real-time optimization of an experimental solid-oxide fuel-cell system
Ferreira TD, Wuillemin Z, Marchetti AG, Salzmann C, Van Herle J, Bonvin D |
| 180 - 187 |
Proton exchange membrane fuel cell subzero start-up with hydrogen catalytic reaction assistance
Guo HP, Sun SC, Yu HM, Lu L, Xu HF, Shao ZG |
