| 1 - 9 |
Use of carbon and AlPO4 dual coating on H2Ti12O25 anode for high stability hybrid supercapacitor
Kim JH, Lee SH |
| 10 - 15 |
Macro-mesoporous hollow carbon spheres as anodes for lithium-ion batteries with high rate capability and excellent cycling performance
Yue XY, Sun W, Zhang J, Wang F, Yang YX, Lu CY, Wang ZH, Rooney D, Sun KN |
| 16 - 21 |
Sb nanoparticles encapsulated into porous carbon matrixes for high-performance lithium-ion battery anodes
Yi Z, Han QG, Zan P, Wu YM, Cheng Y, Wang LM |
| 22 - 25 |
Highly efficient and stable cupronickel nanomesh electrode for flexible organic photovoltaic devices
Kim HJ, Song M, Jeong JH, Kim CS, Surabhi S, Jeong JR, Kim DH, Choi DG |
| 26 - 31 |
Enhancement of lithium ion conductivity by doping Li3BO3 in Li2S-P2S5 glass-ceramics electrolytes for all-solid-state batteries
Eom M, Choi S, Son S, Choi L, Park C, Shin D |
| 32 - 42 |
Modeling crack growth during Li extraction and insertion within the second half cycle
Klinsmann M, Rosato D, Kamlah M, McMeeking RM |
| 43 - 49 |
Wrinkled substrate and Indium Tin Oxide-free transparent electrode making organic solar cells thinner in active layer
Liu K, Lu SD, Yue SZ, Ren KK, Azam M, Tan FR, Wang ZJ, Qu SC, Wang ZG |
| 50 - 57 |
Hierarchical MoS2@RGO nanosheets for high performance sodium storage
Che ZZ, Li YF, Chen KX, Wei MD |
| 58 - 66 |
Peapod-like V2O3 nanorods encapsulated into carbon as binder-free and flexible electrodes in lithium-ion batteries
Li XX, Fu JJ, Pan ZG, Su JJ, Xu JW, Gao B, Peng X, Wang L, Zhang XM, Chu PK |
| 67 - 75 |
Sandwich-like graphene/polypyrrole/layered double hydroxide nanowires for high-performance supercapacitors
Li XJ, Zhang Y, Xing W, Li L, Xue QZ, Yan ZF |
| 76 - 81 |
Rational design of three-dimensional macroporous silicon as high performance Li-ion battery anodes with long cycle life
Wu H, Du N, Shi XX, Yang DR |
| 82 - 90 |
Vertically aligned carbon nanotube-ruthenium dioxide core-shell cathode for non-aqueous lithium-oxygen batteries
Jung CY, Zhao TS, Zeng L, Tan P |
| 91 - 99 |
Oxygen vacancies in SnO2 surface coating to enhance the activation of layered Li-Rich Li1.2Mn0.54Ni0.13Co0.13O2 cathode material for Li-ion batteries
Chen C, Geng TF, Du CY, Zuo PJ, Cheng XQ, Ma YL, Yin GP |
| 100 - 111 |
Thiocyanate-free asymmetric ruthenium(II) dye sensitizers containing azole chromophores with near-IR light-harvesting capacity
Wu GH, Kaneko R, Islam A, Zhang YH, Sugawa K, Han LY, Shen Q, Bedja I, Gupta RK, Otsuki J |
| 112 - 121 |
Improving rate capability and decelerating voltage decay of Li-rich layered oxide cathodes via selenium doping to stabilize oxygen
Ma QX, Li RH, Zheng RJ, Liu YL, Huo H, Dai CS |
| 122 - 131 |
Numerical predictions and experimental verification of Li-O-2 battery capacity limits for cathodes with spherical conductors and solid electrolytes
Lee HC, Roev V, Kim TY, Park MS, Lee DJ, Im D, Doo SG |
| 132 - 155 |
A review on separators for lithium-sulfur battery: Progress and prospects
Deng NP, Kang WM, Liu YB, Ju JG, Wu DY, Li L, Hassan BS, Cheng BW |
| 156 - 166 |
Lithium-ion capacitors using carbide-derived carbon as the positive electrode A comparison of cells with graphite and Li4Ti5O12 as the negative electrode
Rauhala T, Leis J, Kallio T, Vuorilehto K |
| 167 - 179 |
Electrochemical fields within 3D reconstructed microstructures of mixed ionic and electronic conducting devices
Zhang YX, Chen Y, Lin Y, Yan MF, Harris WM, Chiu WKS, Ni M, Chen FL |
| 180 - 188 |
Facile construction of 3D graphene/MoS2 composites as advanced electrode materials for supercapacitors
Sun TH, Li ZP, Liu XH, Ma LM, Wang JQ, Yang SR |
| 189 - 197 |
Clean hydrogen and power from impure water
Acar C, Dincer I, Naterer GF |
| 198 - 207 |
Double-plasma enhanced carbon shield for spatial/interfacial controlled electrodes in lithium ion batteries via micro-sized silicon from wafer waste
Chen BH, Chuang SI, Duh JG |
| 208 - 223 |
State-of-charge estimation in lithium-ion batteries: A particle filter approach
Tulsyan A, Tsai Y, Gopaluni RB, Braatz RD |
| 224 - 231 |
Extending battery life: A low-cost practical diagnostic technique for lithium-ion batteries
Merla Y, Wu B, Yufit V, Brandon NP, Martinez-Botas RF, Offer GJ |
| 232 - 239 |
Soft-contact conductive carbon enabling depolarization of LiFePO4 cathodes to enhance both capacity and rate performances of lithium ion batteries
Ren WJ, Wang K, Yang JL, Tan R, Hu JT, Guo H, Duan YD, Zheng JX, Lin Y, Pan F |
| 240 - 246 |
Enhanced performance of planar perovskite solar cells via incorporation of Bphen/Cs2CO3-MoO3 double interlayers
Jiang YR, Liu HR, Gong X, Li C, Qin RP, Ma H |
| 247 - 257 |
High-rate layered lithium-rich cathode nanomaterials for lithium-ion batteries synthesized with the assist of carbon spheres templates
Zhang LJ, Jiang JC, Zhang CP, Wu BR, Wu F |
| 258 - 266 |
Synthesis and electrochemical characterization of stoichiometric Cu2S as cathode material with high rate capability for rechargeable lithium batteries
Kalimuldina G, Taniguchi I |
| 267 - 276 |
In situ visualization of the electrolyte solvent filling process by neutron radiography
Knoche T, Zinth V, Schulz M, Schnell J, Gilles R, Reinhart G |
| 277 - 284 |
High power density aqueous hybrid supercapacitor combining activated carbon and highly conductive spinel cobalt oxide
Godillot G, Taberna PL, Daffos B, Simon P, Delmas C, Guerlou-Demourgues L |
| 285 - 292 |
Electrochemical Impedance Spectroscopy study in micro-grain structured amorphous silicon anodes for lithium-ion batteries
Paloukis F, Elmasides C, Farmakis F, Selinis P, Neophytides SG, Georgoulas N |
| 293 - 298 |
Highly efficient and stable cryo-ground sulphur cathode for Li-S batteries
Kazda T, Krbal M, Pouzar M, Vondrak J, Strakova AF, Slavik M, Wagner T, Macak JM |
| 299 - 307 |
Vibration mode analysis of the proton exchange membrane fuel cell stack
Liu B, Liu LF, Wei MY, Wu CW |
| 308 - 314 |
Effect of a pyrrolidinium zwitterion on charge/discharge cycle properties of Li/LiCoO2 and graphite/Li cells containing an ionic liquid electrolyte
Yamaguchi S, Yoshizawa-Fujita M, Takeoka Y, Rikukawa M |
| 315 - 321 |
Ohmic resistance affects microbial community and electrochemical kinetics in a multi-anode microbial electrochemical cell
Dhar BR, Ryu H, Domingo JWS, Lee HS |
| 322 - 331 |
One-pot preparation of new copolymer electrolytes with tunable network structure for all-solid-state lithium battery
Chen B, Xu Q, Huang Z, Zhao YR, Chen SJ, Xu XX |
| 332 - 339 |
Flexible supercapacitors with high areal capacitance based on hierarchical carbon tubular nanostructures
Zhang HT, Su H, Zhang L, Zhang BB, Chun FJ, Chu X, He WD, Yang WQ |
| 340 - 347 |
A membraneless alkaline direct liquid fuel cell (DLFC) platform developed with a catalyst-selective strategy
Yu XW, Pascual EJ, Wauson JC, Manthiram A |
| 348 - 359 |
Determination of the lead-acid battery's dynamic response using Butler-Volmer equation for advanced battery management systems in automotive applications
Pilatowicz G, Budde-Meiwes H, Kowal J, Sarfert C, Schoch E, Konigsmann M, Sauer DU |
| 360 - 365 |
Stable freestanding Li-ion battery cathodes by in situ conformal coating of conducting polypyrrole on NiS-carbon nanofiber films
Li XY, Chen YM, Zou JZ, Zeng XR, Zhou LM, Huang HT |
| 366 - 372 |
FeS2 nanocrystals prepared in hierarchical porous carbon for lithium-ion battery
Xu X, Cai TW, Meng Z, Ying HJ, Xie Y, Zhu XL, Han WQ |
| 373 - 381 |
A one-step moderate-explosion assisted carbonization strategy to sulfur and nitrogen dual-doped porous carbon nanosheets derived from camellia petals for energy storage
Wei TY, Wei XL, Yang LW, Xiao HP, Gao Y, Li HM |
| 382 - 390 |
First-principles calculations on structure and properties of amorphous Li5P4O8N3 (LiPON)
Sicolo S, Albe K |
| 391 - 399 |
Two-dimensional SiS as a potential anode material for lithium-based batteries: A first-principles study
Jiang HR, Zhao TS, Liu M, Wu MC, Yan XH |
| 400 - 407 |
The Ca element effect on the enhancement performance of Sr2Fe1.5Mo0.5O6-delta perovskite as cathode for intermediate-temperature solid oxide fuel cells
Qiao JS, Chen WJ, Wang WY, Wang ZH, Sun W, Zhang J, Sun KN |
| 408 - 425 |
Nanostructured core-shell electrode materials for electrochemical capacitors
Jiang LB, Yuan XZ, Liang J, Zhang J, Wang H, Zeng GM |
| 426 - 434 |
Towards Li(Ni0.33Mn0.33Co0.33)O-2/graphite batteries with ionic liquid-based electrolytes. I. Electrodes' behavior in lithium half-cells
Simonetti E, Maresca G, Appetecchi GB, Kim GT, Loeffler N, Passerini S |
| 435 - 444 |
Effect of sintering conditions on the electrical-transport properties of the SrZrO3-based protonic ceramic electrolyser membrane
Heras-Juaristi G, Perez-Coll D, Mather GC |
| 445 - 451 |
Ternary mixtures of nitrile-functionalized glyme, non-flammable hydrofluoroether and fluoroethylene carbonate as safe electrolytes for lithium-ion batteries
Liu Y, Fang SH, Shi P, Luo D, Yang L, Hirano SI |
| 452 - 461 |
Highly stable pyridinium-functionalized cross-linked anion exchange membranes for all vanadium redox flow batteries
Zeng L, Zhao TS, Wei L, Zeng YK, Zhang ZH |
| 462 - 474 |
Validation of pore network simulations of ex-situ water distributions in a gas diffusion layer of proton exchange membrane fuel cells with X-ray tomographic images
Agaesse T, Lamibrac A, Buchi FN, Pauchet J, Prat M |
| 475 - 480 |
Conversion from Li2SO4 to Li2S@C on carbon paper matrix: A novel integrated cathode for lithium-sulfur batteries
Wang DH, Xie D, Yang T, Zhong Y, Wang XL, Xia XH, Gu CD, Tu JP |
| 481 - 486 |
Hierarchical nanosheet-based Bi2MoO6 nanotubes with remarkably improved electrochemical performance
Ma Y, Jia YL, Wang LN, Yang M, Bi YP, Qi YX |
| 487 - 494 |
Insights into the inner structure of high-nickel agglomerate as high-performance lithium-ion cathodes
Yang CK, Qi LY, Zuo ZC, Wang RN, Ye M, Lu J, Zhou HH |
| 495 - 506 |
Robust NdBa0.5Sr0.5Co1.5Fe0.5O5+delta cathode material and its degradation prevention operating logic for intermediate temperature-solid oxide fuel cells
Lee TH, Park KY, Kim NI, Song SJ, Hong KH, Ahn D, Azad AK, Hwang J, Bhattacharjee S, Lee SC, Lim HT, Park JY |
| 507 - 514 |
Energy storage capabilities of nitrogen-enriched pyropolymer nanoparticles fabricated through rapid pyrolysis
Yun YS, Kim YH, Song MY, Kim NR, Ku K, An JS, Kang K, Choi HJ, Jin HJ |
| 515 - 526 |
Modeling and optimization of proton-conducting solid oxide electrolysis cell: Conversion of CO2 into value-added products
Namwong L, Authayanun S, Saebea D, Patcharavorachot Y, Arpornwichanop A |
| 527 - 534 |
Yb,Er-doped CeO2 nanotubes as an assistant layer for photoconversion-enhanced dye-sensitized solar cells
Zhao RF, Huan L, Gu P, Guo R, Chen M, Diao GW |
| 535 - 543 |
Water management in a planar air-breathing fuel cell array using operando neutron imaging
Coz E, Thery J, Boillat P, Faucheux V, Alincant D, Capron P, Gebel G |
| 544 - 552 |
Mediated proton transport through Nafion 117 membranes imbibed with varying concentrations of aqueous VOSO4 (VO2+) and NH4VO3 (VO2+) in 2 M H2SO4
Suarez S, Paterno D |
| 553 - 565 |
An optimal control strategy for standalone PV system with Battery-Supercapacitor Hybrid Energy Storage System
Chong LW, Wong YW, Rajkumar RK, Isa D |
| 566 - 566 |
'Low-cost Cr doped Pt3Ni alloy supported on carbon nanofibers composites counter electrode for efficient dye-sensitized solar cells' (vol 328, pg 543, 2016)
Xiao JY, Cui MD, Wang MK, Sui HD, Yang K, Li L, Zhang WM, Li XW, Fu GS, Hagfeldt A, Zhang YC |
| 567 - 567 |
A techno-economic analysis and optimization of Li-ion batteries for light-duty passenger vehicle electrification (vol 273, pg 966, 2015)
Sakti A, Michalek JJ, Fuchs ERH, Whitacre JF |
| 568 - 568 |
Hierarchical Ni0.54CO0.46O2 nanowire and nanosheet arrays grown on carbon fiber cloth for high-performance supercapacitors (vol 329, pg 473, 2016)
Jiang YZ, Zhang LJ, Zhang H, Zhang C, Liu SX |
| 569 - 569 |
Degradation of solid oxide cells during co-electrolysis of steam and carbon dioxide at high current densities (vol 328, pg 452, 2016)
Tao YK, Ebbesen SD, Mogensen MB |
