| 1 - 8 |
Artificial cathode-electrolyte interphases on nickel-rich cathode materials modified by silyl functional group
Song HJ, Jang SH, Ahn J, Oh SH, Yim T |
| 9 - 20 |
The whole process, bubble dynamic analysis in two-phase transport of the passive miniature direct methanol fuel cells
Yuan ZY, Zuo KY, Cao C, Chen SX, Chuai WH, Guo ZM |
| 21 - 28 |
Stabilizing Na-metal batteries with a manganese oxide cathode using a solid-state composite electrolyte
Lyu YQ, Yu J, Wu JX, Effat MB, Ciucci F |
| 29 - 36 |
Functional additives assisted ester-carbonate electrolyte enables wide temperature operation of a high-voltage (5 V-Class) Li-ion battery
Xu GJ, Huang SQ, Cui ZL, Du XF, Wang X, Lu D, Shangguan XH, Ma J, Han PX, Zhou XH, Cui GL |
| 37 - 49 |
Reduced-order model for microstructure evolution prediction in the electrodes of solid oxide fuel cell with dynamic discrepancy reduced modeling
Lei YK, Chen TL, Mebane DS, Wen YH |
| 50 - 55 |
Ultrasonic sonochemical synthesis of Na0.44MnO2 insertion material for sodium-ion batteries
Shinde GS, Nayak PD, Vanam SP, Jain SK, Pathak AD, Sanyal S, Balachandran J, Barpanda P |
| 56 - 61 |
Bottom-current-collector-free thin-film batteries using LiNi0.8Co0.2O2 epitaxial thin films
Nishio K, Horiba K, Nakamura N, Kitamura M, Kumigashira H, Shimizu R, Hitosugi T |
| 62 - 71 |
Facile and efficient synthesis of alpha-Fe2O3 nanocrystals by glucose-assisted thermal decomposition method and its application in lithium ion batteries
Li YW, Huang Y, Zheng YY, Huang RS, Yao JH |
| 72 - 78 |
Solar heat integrated solid oxide steam electrolysis for highly efficient hydrogen production
Schiller G, Lang M, Szabo P, Monnerie N, von Storch H, Reinhold J, Sundarraj P |
| 79 - 88 |
In-situ synthesis of highly nitrogen, sulfur co-doped carbon nanosheets from melamine-formaldehyde-thiourea resin with improved cycling stability and energy density for supercapacitors
Wang M, Liu H, Zhai DD, Chen XY, Zhang ZJ |
| 89 - 94 |
An ultrathin inorganic-organic hybrid layer on commercial polymer separators for advanced lithium-ion batteries
Moon J, Jeong JY, Kim JI, Kim S, Park JH |
| 95 - 103 |
Engineering hybrid CoMoS4/Ni3S2 nanostructures as efficient bifunctional electrocatalyst for overall water splitting
Hu P, Jia ZY, Che HB, Zhou WY, Liu N, Li F, Wang JS |
| 104 - 110 |
Constant dripping wears away a stone: Fatigue damage causing particles' cracking
Ren ZM, Zhang XH, Liu M, Zhou JJ, Sun S, He HY, Wang DY |
| 111 - 117 |
A free-standing reduced graphene oxide aerogel as supporting electrode in a fluorine-free Li2S8 catholyte Li-S battery
Cavallo C, Agostini M, Genders JP, Abdelhamid ME, Matic A |
| 118 - 124 |
A facile route to achieve ultrafine Fe2O3 nanorods anchored on graphene oxide for application in lithium-ion battery
Zhang GD, Shi YH, Wang HR, Jiang LL, Yu XD, Jing SY, Xing SX, Tsiakaras P |
| 125 - 131 |
Understanding of pre-lithiation of poly(acrylic acid) binder: Striking the balances between the cycling performance and slurry stability for silicon-graphite composite electrodes in Li-ion batteries
Hu B, Jiang SS, Shkrob IA, Zhang JL, Trask SE, Polzin BJ, Jansen A, Chen W, Liao C, Zhang ZC, Zhang L |
| 132 - 140 |
Modeling lithium ion battery nail penetration tests and quantitative evaluation of the degree of combustion risk
Yamanaka T, Takagishi Y, Tozuka Y, Yamaue T |
| 141 - 147 |
Growth direction control of lithium dendrites in a heterogeneous lithiophilic host for ultra-safe lithium metal batteries
Hou GM, Sun QD, Ai Q, Ren XH, Xu XY, Guo HH, Guo SR, Zhang L, Feng JK, Ding F, Ajayan PM, Si PC, Ci LJ |
| 148 - 154 |
Thermal characteristics of 80 degrees C storage-degraded 18650-type lithium-ion secondary cells
Taniguchi S, Shironita S, Konakawa K, Mendoza-Hernandez OS, Sone Y, Umeda M |
| 155 - 162 |
Imaging of the desaturation of gas diffusion layers by synchrotron computed tomography
Battrell L, Patel V, Zhu N, Zhang LF, Anderson R |
| 163 - 174 |
Degradation mechanisms of C-6/LiNi0.5Mn0.3Co0.2O2 Li-ion batteries unraveled by non-destructive and post-mortem methods
Li DJ, Li H, Danilov DL, Gao L, Chen XX, Zhang ZR, Zhou J, Eichel RA, Yang Y, Notten PHL |
| 175 - 183 |
Investigation of an advanced catalytic effect of cobalt oxide modification on graphite felt as the positive electrode of the vanadium redox flow battery
Xiang Y, Daoud WA |
| 184 - 192 |
P2-Type Na0.67Mn0.8Cu0.1Mg0.1O2 as a new cathode material for sodium ion batteries: Insights of the synergetic effects of multi-metal substitution and electrolyte optimization
Li JK, Wang J, He X, Zhang L, Senyshyn A, Yan B, Muehlbauer M, Cao X, Vortmann-Westhoven B, Kraft V, Liu HD, Luerenbaum C, Schumacher G, Paillard E, Winter M, Li J |
