Search Results - "Badding, Michael E."

Reversible ion exchange and structural stability of garnet-type Nb-doped Li7La3Zr2O12 in water for applications in lithium batteries by Liu, Cai, Rui, Kun, Shen, Chen, Badding, Michael E., Zhang, Gaoxiao, Wen, Zhaoyin

“…H+/Li+ ion exchange and structural stability of the high ionic conductivity Nb-doped Zr-garnet Li6.75La3Nb0.25Zr1.75O12 (LLNZO) are investigated in this study…”
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Achieving high critical current density in Ta-doped Li7La3Zr2O12/MgO composite electrolytes by Guo, Haojie, Su, Jianmeng, Zha, Wenping, Xiu, Tongping, Song, Zhen, Badding, Michael E., Jin, Jun, Wen, Zhaoyin

“…Li-garnet Li7La3Zr2O12 (LLZO) is a promising solid electrolyte for lithium metal batteries owing to its excellent stability and high ionic conductivity…”
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A Li-Garnet composite ceramic electrolyte and its solid-state Li-S battery by Huang, Xiao, Liu, Cai, Lu, Yang, Xiu, Tongping, Jin, Jun, Badding, Michael E., Wen, Zhaoyin

“…A high strength Li-Garnet solid electrolyte composite ceramic is successfully prepared via conventional solid state method with Li6.4La3Zr1.4Ta0.6O12 and nano…”
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A 3D Cross‐Linking Lithiophilic and Electronically Insulating Interfacial Engineering for Garnet‐Type Solid‐State Lithium Batteries by Ruan, Yadong, Lu, Yang, Li, Yanpei, Zheng, Chujun, Su, Jianmeng, Jin, Jun, Xiu, Tongping, Song, Zhen, Badding, Michael E., Wen, Zhaoyin

“…Solid‐state batteries (SSBs) promise high energy density and strong safety due to using nonflammable solid‐state electrolytes (SSEs) and high‐capacity Li metal…”
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Overcoming the abnormal grain growth in Ga-doped Li7La3Zr2O12 to enhance the electrochemical stability against Li metal by Su, Jianmeng, Huang, Xiao, Song, Zhen, Xiu, Tongping, Badding, Michael E., Jin, Jun, Wen, Zhaoyin

“…Li7La3Zr2O12 (LLZO) solid electrolyte is a promising candidate for next generation batteries. In the LLZO family with various doping elements, Ga-doped LLZO…”
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Grain boundary modification in garnet electrolyte to suppress lithium dendrite growth by Zheng, Chujun, Ruan, Yadong, Su, Jianmeng, Song, Zhen, Xiu, Tongping, Jin, Jun, Badding, Michael E., Wen, Zhaoyin

“…The grain boundary modification gives the garnet electrolyte superior lithium dendrite suppression capability. [Display omitted] •Li6Zr2O7 is a novel additive…”
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Sintering, micro-structure and Li+ conductivity of Li7−xLa3Zr2−xNbxO12/MgO (x = 0.2–0.7) Li-Garnet composite ceramics by Huang, Xiao, Song, Zhen, Xiu, Tongping, Badding, Michael E., Wen, Zhaoyin

“…Nb-doped Li7La3Zr2O12 (Nb-LLZO) is one of the promising electrolyte candidates in the Li-Garnet family due to its high Li-ion conductivity. The sintered…”
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The Role of Interlayer Chemistry in Li‐Metal Growth through a Garnet‐Type Solid Electrolyte by Kim, Sewon, Jung, Changhoon, Kim, Hyunseok, Thomas‐Alyea, Karen E., Yoon, Gabin, Kim, Byunghoon, Badding, Michael E., Song, Zhen, Chang, JaeMyung, Kim, Jusik, Im, Dongmin, Kang, Kisuk

“…Securing the chemical and physical stabilities of electrode/solid‐electrolyte interfaces is crucial for the use of solid electrolytes in all‐solid‐state…”
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High‐Performance Garnet‐Type Solid‐State Lithium Metal Batteries Enabled by Scalable Elastic and Li+‐Conducting Interlayer by Zheng, Chujun, Lu, Yan, Chang, Qiang, Song, Zhen, Xiu, Tongping, Jin, Jun, Badding, Michael E., Wen, Zhaoyin

“…Promoting the interfacial Li+ transport and suppressing detrimental lithium dendrites are the main challenges for developing practical solid‐state lithium…”
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Method Using Water-Based Solvent to Prepare Li7La3Zr2O12 Solid Electrolytes by Huang, Xiao, Lu, Yang, Jin, Jun, Gu, Sui, Xiu, Tongping, Song, Zhen, Badding, Michael E, Wen, Zhaoyin

“…Li-garnet Li7La3Zr2O12 (LLZO) is a promising candidate of solid electrolytes for high-safety solid-state Li+ ion batteries. However, because of its high…”
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Preparation of dense Ta-LLZO/MgO composite Li-ion solid electrolyte: Sintering, microstructure, performance and the role of MgO by Huang, Xiao, Lu, Yang, Song, Zhen, Xiu, Tongping, Badding, Michael E., Wen, Zhaoyin

“…Cubic phase Li7La3Zr2O12 (LLZO), a member of the Li–Garnet family, is a promising solid electrolyte and has been widely studied in recent years. However, LLZO…”
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None-Mother-Powder Method to Prepare Dense Li-Garnet Solid Electrolytes with High Critical Current Density by Huang, Xiao, Lu, Yang, Guo, Haojie, Song, Zhen, Xiu, Tongping, Badding, Michael E, Wen, Zhaoyin

“…Cubic Li-garnet Li7La3Zr2O12 (c-LLZO) is a promising Li+ ion conductor for applications as a ceramic solid electrolyte in next generation high safety lithium…”
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Bonded Interface Enabled Durable Solid‐state Lithium Metal Batteries with Ultra‐low Interfacial Resistance of 0.25 Ω cm2 by Huang, Huayan, Jin, Jun, Zheng, Chujun, Wang, Lingchen, Yuan, Huihui, Xiu, Tongping, Song, Zhen, Badding, Michael E., Yue, Ke, Tao, Xinyong, Lu, Yan, Wen, Zhaoyin

“…The solid‐state batteries (SSBs) with Li anode present one of the most promising energy storage systems due to their enhanced energy density and safety…”
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Grain Boundary Engineering Enabled High‐Performance Garnet‐Type Electrolyte for Lithium Dendrite Free Lithium Metal Batteries by Zheng, Chujun, Lu, Yan, Su, Jianmeng, Song, Zhen, Xiu, Tongping, Jin, Jun, Badding, Michael E., Wen, Zhaoyin

“…Solid‐state lithium metal batteries (SSLMBs) are attracting increasing attentions as one of the promising next‐generation technologies due to their high‐safety…”
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Method Using Water-Based Solvent to Prepare Li 7 La 3 Zr 2 O 12 Solid Electrolytes by Huang, Xiao, Lu, Yang, Jin, Jun, Gu, Sui, Xiu, Tongping, Song, Zhen, Badding, Michael E, Wen, Zhaoyin

“…Li-garnet Li La Zr O (LLZO) is a promising candidate of solid electrolytes for high-safety solid-state Li ion batteries. However, because of its high…”
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10Be ages of late Pleistocene deglaciation and Neoglaciation in the north-central Brooks Range, Arctic Alaska by Badding, Michael E., Briner, Jason P., Kaufman, Darrell S.

“…We present a chronology of late Pleistocene deglaciation and Neoglaciation for two valleys in the north‐central Brooks Range, Alaska, using cosmogenic 10Be…”
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Searching for low-cost LixMOy compounds for compensating Li-loss in sintering of Li-Garnet solid electrolyte by Xiao Huang, Zhen Song, Tongping Xiu, Michael E. Badding, Zhaoyin Wen

“…Cubic Li-Garnet Li7La3Zr2O12 (c-LLZO) is one of the promising solid-state electrolyte candidates for the next generation high safety solid-state batteries…”
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Synthesis, structure, and properties of a new ternary metal nitride, Ca3CrN3 by Vennos, Deborah A, Badding, Michael E, DiSalvo, F. J

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Two-step sintering strategy to prepare dense Li-Garnet electrolyte ceramics with high Li+ conductivity by Huang, Xiao, Xiu, Tongping, Badding, Michael E., Wen, Zhaoyin

“…One of the typical solid-state sintering strategies for Li-Garnet solid electrolytes is firing the green ceramics at one specific sintering temperature for a…”
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Synthesis of Ga-doped Li7La3Zr2O12 solid electrolyte with high Li+ ion conductivity by Huang, Xiao, Su, Jianmeng, Song, Zhen, Xiu, Tongping, Jin, Jun, Badding, Michael E., Wen, Zhaoyin

“…Garnet-type Li7La3Zr2O12 (LLZO) Li+ ion solid electrolyte is a promising candidate for next generation high-safety solid-state batteries. Ga-doped LLZO…”
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