| 1 - 7 |
Critical safety features of the vanadium redox flow battery
Whitehead AH, Rabbow TJ, Trampert M, Pokorny P |
| 8 - 16 |
Transient deformational properties of high temperature alloys used in solid oxide fuel cell stacks
Molla TT, Kwok K, Frandsen HL |
| 17 - 25 |
A bifunctional ion-electron conducting interlayer for high energy density all-solid-state lithium-sulfur battery
Zhu YW, Li J, Liu J |
| 26 - 34 |
Phase transformation and high electrochemical performance of La0.78Mg0.22Ni3.73 alloy with (La,Mg)(5)Ni-19 superlattice structure
Liu JJ, Yan YK, Cheng HH, Han SM, Lv YF, Li K, Lu C |
| 35 - 44 |
A new approach for compensating the irreversible capacity loss of high-energy Si/C vertical bar LiNi0.5Mn1.5O4 lithium-ion batteries
Gabrielli G, Marinaro M, Mancini M, Axmann P, Wohlfahrt-Mehrens M |
| 45 - 50 |
Electrical power production from low-grade waste heat using a thermally regenerative ethylenediamine battery
Rahimi M, D'Angelo A, Gorski CA, Scialdone O, Logan BE |
| 51 - 57 |
Morphology controlled MnO2 electrodeposited on carbon fiber paper for high-performance supercapacitors
Ye ZG, Li T, Ma G, Peng XY, Zhao J |
| 58 - 66 |
Graphene-enhanced three-dimensional structures of MoS2 nanosheets as a counter electrode for Pt-free efficient dye-sensitized solar cells
Ma J, Shen W, Yu F |
| 67 - 73 |
A laminar flow-based single stack of flow-over planar microfluidic fuel cells
Lee SH, Ahn Y |
| 74 - 78 |
A direct ascorbate fuel cell with an anion exchange membrane
Muneeb O, Do E, Tran T, Boyd D, Huynh M, Ghosn G, Haan JL |
| 79 - 85 |
The high utilization of fuel in direct borohydride fuel cells with a PdNix-B/carbon nanotubes-catalysed anode
Zhou YP, Li S, Chen YZ, Liu YN |
| 86 - 95 |
Enhance performance of micro direct methanol fuel cell by in situ CO2 removal using novel anode flow field with superhydrophobic degassing channels
Liang JS, Luo Y, Zheng S, Wang DZ |
| 96 - 105 |
Architecture for improved mass transport and system performance in redox flow batteries
Houser J, Pezeshki A, Clement JT, Aaron D, Mench MM |
| 106 - 114 |
Determination of the efficiency of ethanol oxidation in a proton exchange membrane electrolysis cell
Altarawneh RM, Majidi P, Pickup PG |
| 115 - 122 |
Electrochemical behavior of zinc particles with silica based coatings as anode material for zinc air batteries with improved discharge capacity
Schmid M, Willert-Porada M |
| 123 - 129 |
Bulk heterojunction perovskite solar cells based on room temperature deposited hole-blocking layer: Suppressed hysteresis and flexible photovoltaic application
Chen ZL, Yang G, Zheng XL, Lei HW, Chen C, Ma JJ, Wang H, Fang GJ |
| 130 - 137 |
Lignocellulose-derived porous phosphorus-doped carbon as advanced electrode for supercapacitors
Yi JN, Qing Y, Wu CT, Zeng YX, Wu YQ, Lu XH, Tong YX |
| 138 - 144 |
Protic ionic liquid modified electrocatalyst enables robust anode under cell reversal condition
Zhu ZY, Yan XC, Tang HL, Cai HP, Pan M, Zhang HN, Luo JS |
| 145 - 150 |
A fully spray-coated fuel cell membrane electrode assembly using Aquivion ionomer with a graphene oxide/cerium oxide interlayer
Breitwieser M, Bayer T, Buchler A, Zengerle R, Lyth SM, Thiele S |
| 151 - 159 |
Trace-level phosphorus and sodium co-doping of g-C3N4 for enhanced photocatalytic H-2 production
Cao SW, Huang Q, Zhu BC, Yu JG |
| 160 - 168 |
Super-aligned carbon nanotube films with a thin metal coating as highly conductive and ultralight current collectors for lithium-ion batteries
Wang K, Wu Y, Wu HC, Luo YF, Wang DT, Jiang KL, Li QQ, Li YD, Fan SS, Wang JP |
| 169 - 173 |
Mechanism of the cathode current collector on cell performance in a solid oxide fuel cell stack
Guan WB, Wang GL, Zhou XD |
| 174 - 182 |
Electroconversion of glycerol in alkaline medium: From generation of energy to formation of value-added products
Da Silva RG, Neto SA, Kokoh KB, De Andrade AR |
| 183 - 191 |
Hierarchical columnar silicon anode structures for high energy density lithium sulfur batteries
Piwko M, Kuntze T, Winkler S, Straach S, Hartel P, Althues H, Kaskel S |
| 192 - 199 |
A promising approach for the recovery of high value-added metals from spent lithium-ion batteries
Hu JT, Zhang JL, Li HX, Chen YQ, Wang CY |
