| 1 - 11 |
Tuning Li2MO3 phase abundance and suppressing migration of transition metal ions to improve the overall performance of Li- and Mn-rich layered oxide cathode
Zhang SM, Tang T, Ma ZH, Gu HT, Du WB, Gao MX, Liu YF, Jian DC, Pan HG |
| 12 - 17 |
Biomass carbon composited FeS2 as cathode materials for high-rate rechargeable lithium-ion battery
Xu X, Meng Z, Zhu XL, Zhang SL, Han WQ |
| 18 - 25 |
Graphene with cobalt oxide and tungsten carbide as a low-cost counter electrode catalyst applied in Pt-free dye-sensitized solar cells
Chen L, Chen WL, Wang EB |
| 26 - 36 |
Sulfur poisoning of Ni/Gadolinium-doped ceria anodes: A long-term study outlining stable solid oxide fuel cell operation
Riegraf M, Zekri A, Knipper M, Costa R, Schiller G, Friedrich KA |
| 37 - 45 |
Pressurized diesel fuel processing using hydrogen peroxide for the fuel cell power unit in low-oxygen environments
Lee K, Han G, Cho S, Bae J |
| 46 - 54 |
Hydrogen oxidation mechanisms on Ni/yttria stabilized zirconia anodes: Separation of reaction pathways by geometry variation of pattern electrodes
Doppler MC, Fleig J, Bram M, Opitz AK |
| 55 - 63 |
Nitrogen doped carbon derived from polyimide/multiwall carbon nanotube composites for high performance flexible all-solid-state supercapacitors
Kim DK, Kim ND, Park SK, Seong KD, Hwang M, You NH, Piao YZ |
| 64 - 75 |
Effect of CO2 absorption on ion and water mobility in an anion exchange membrane
Peng J, Roy AL, Greenbaum SG, Zawodzinski TA |
| 76 - 82 |
Empirical sulfation model for valve-regulated lead-acid batteries under cycling operation
Franke M, Kowal J |
| 83 - 91 |
Semi-empirical master curve concept describing the rate capability of lithium insertion electrodes
Heubner C, Seeba J, Liebmann T, Nickol A, Borner S, Fritsch M, Nikolowski K, Wolter M, Schneider M, Michaelis A |
| 92 - 104 |
Overview and benchmark analysis of fuel cell parameters estimation for energy management purposes
Kandidayeni M, Macias A, Amamou AA, Boulon L, Kelouwani S, Chaoui H |
| 105 - 114 |
Performance evaluation of thermally treated graphite felt electrodes for vanadium redox flow battery and their four-point single cell characterization
Mazur P, Mrlik J, Benes J, Pocedic J, Vrana J, Dundalek J, Kosek J |
| 115 - 125 |
Role of perfluoropolyether-based electrolytes in lithium metal batteries: Implication for suppressed Al current collector corrosion and the stability of Li metal/electrolytes interfaces
Cong LN, Liu J, Armand M, Mauger A, Julien CM, Xie HM, Sun LQ |
| 126 - 134 |
Visualization of electrolyte filling process and influence of vacuum during filling for hard case prismatic lithium ion cells by neutron imaging to optimize the production process
Weydanz WJ, Reisenweber H, Gottschalk A, Schulz M, Knoche T, Reinhart G, Masuch M, Franke J, Gilles R |
| 135 - 141 |
Revisiting the open-framework zinc hexacyanoferrate: The role of ternary electrolyte and sodium-ion intercalation mechanism
Niu L, Chen L, Zhang J, Jiang P, Liu ZP |
| 142 - 148 |
Spectrum-enhanced Au@ZnO plasmonic nanoparticles for boosting dye-sensitized solar cell performance
Liu QS, Wei YW, Shahid MZ, Yao MM, Xu B, Liu GN, Jiang KJ, Li CC |
| 149 - 157 |
Toward a stable solid-electrolyte-interfaces on nickel-rich cathodes: LiPO2F2 salt-type additive and its working mechanism for LiNi0.5Mn0.25Co0.25O2 cathodes
Zhao WM, Zheng GR, Lin M, Zhao WG, Li DJ, Guan XY, Ji YJ, Ortiz GF, Yang Y |
| 158 - 163 |
Revisiting the relevance of using a constant voltage step to improve electrochemical performances of Li-rich lamellar oxides
Pradon A, Caldes MT, Petit PE, La Fontaine C, Elkaim E, Tessier C, Ouvrard G, Dumont E |
| 164 - 173 |
Hollow porous bowl-shaped lithium-rich cathode material for lithium-ion batteries with exceptional rate capability and stability
Zhang Y, Zhang WS, Shen SY, Yan XH, Wu AM, Yin JW, Zhang JL |
| 174 - 184 |
Facile preparation of efficient electrocatalysts for oxygen reduction reaction: One-dimensional meso/macroporous cobalt and nitrogen Co-doped carbon nanofibers
Yoon KR, Choi J, Cho SH, Jung JW, Kim C, Cheong JY, Kim ID |
| 185 - 193 |
Lifecycle comparison of selected Li-ion battery chemistries under grid and electric vehicle duty cycle combinations
Crawford AJ, Huang Q, Kintner-Meyer MCW, Zhang JG, Reed DM, Sprenkle VL, Viswanathan VV, Choi D |
| 194 - 201 |
Visualizing elemental deposition patterns on carbonaceous anodes from lithium ion batteries: A laser ablation-inductively coupled plasma-mass spectrometry study on factors influencing the deposition of lithium, nickel, manganese and cobalt after dissolution and migration from the Li-1 [Ni1/3Mn1/3Co1/3]O-2 and LiMn1.5 Ni0.5O4 cathode
Schwieters T, Evertz M, Fengler A, Borner M, Dagger T, Stenzel Y, Harte P, Winter M, Nowak S |
