Search Results - "Jeong, Goojin"

Core–Shell Structured Silicon Nanoparticles@TiO2–x /Carbon Mesoporous Microfiber Composite as a Safe and High-Performance Lithium-Ion Battery Anode by Jeong, Goojin, Kim, Jae-Geun, Park, Min-Sik, Seo, Minsu, Hwang, Soo Min, Kim, Young-Ugk, Kim, Young-Jun, Kim, Jung Ho, Dou, Shi Xue

“…A core–shell structured Si nanoparticles@TiO2–x /C mesoporous microfiber composite has been synthesized by an electrospinning method. The core–shell composite…”
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Effect of binder properties on electrochemical performance for silicon-graphite anode: Method and application of binder screening by Yim, Taeeun, Choi, Soo Jung, Jo, Yong Nam, Kim, Tae-Hyun, Kim, Ki Jae, Jeong, Goojin, Kim, Young-Jun

“…•Binder properties are systematically characterized to estimate their suitability.•Interpretation of binder properties in connection with binding affinity,…”
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Enhanced cycle performance of SiO-C composite anode for lithium-ion batteries by Kim, Jae-Hun, Sohn, Hun-Joon, Kim, Hansu, Jeong, Goojin, Choi, Wanuk

“…A silicon monoxide (SiO)-carbon composite prepared by ball-milling and pyrolysis is evaluated as an anode material for lithium-ion batteries. Electrochemical…”
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Importance of uniformly redistributing external pressure on cycling of pouch-type Li-metal batteries by Choi, Byungjun, Lee, Mingyu, Woo, Sang-Gil, Jeong, Goojin, Lee, Hongkyung, Lee, Je-Nam, Yu, Ji-Sang

“…Li-metal anode (LMA) is considered promising for overcoming the energy density limit of current Li-ion batteries. However, LMAs in large-scale cells are…”
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Controlled Ag-driven superior rate-capability of Li4Ti5O12 anodes for lithium rechargeable batteries by Kim, Jae-Geun, Shi, Dongqi, Park, Min-Sik, Jeong, Goojin, Heo, Yoon-Uk, Seo, Minsu, Kim, Young-Jun, Kim, Jung Ho, Dou, Shi Xue

“…The morphology and electronic structure of a Li4Ti5012 anode are known to determine its electrical and electrochemical properties in lithium rechargeable…”
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Enhanced Rate Capability of Na-SO2 Rechargeable Battery by Urea-templated Meso/Macroporous Carbon Electrode by Song, Juhye, Park, Jong Hwan, Lee, Ah-Jung, Kim, Bo-Ram, Jeong, Goojin, Kim, Young-Jun, Kim, Hansu

“…Sodium rechargeable batteries have garnered intensive attention as alternatives to currently used lithium‐ion batteries (LIBs). Among various sodium secondary…”
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Effect of acid scavengers on electrochemical performance of lithium-sulfur batteries: Functional additives for utilization of LiPF6 by Yim, Taeeun, Kang, Kyoung Seok, Yu, Ji-Sang, Kim, Ki Jae, Park, Min-Sik, Woo, Sang-Gil, Jeong, Goojin, Jo, Yong Nam, Im, Keun Yung, Kim, Jae-Hun, Kim, Young-Jun

“…We investigated a novel approach for utilizing LiPF6 as the lithium salt for Li-S batteries and verifying its chemical reactivity with the main solvent. It is…”
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Photonic Control of Photoinduced Electron Transfer via Switching of Redox Potentials in a Photochromic Moiety by Terazono, Yuichi, Kodis, Gerdenis, Andréasson, Joakim, Jeong, Goojin, Brune, Alicia, Hartmann, Thomas, Dürr, Heinz, Moore, Ana L, Moore, Thomas A, Gust, Devens

“…A porphyrin (P) has been covalently linked to a photochromic dihydroindolizine moiety (DHI) to form a P-DHI dyad. When the dihydroindolizine is in its closed,…”
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Interface Engineering with Nonsacrificial Perfluorinated-Anion Additives for Boosting the Kinetics of Lithium-Ion Batteries by Kim, Hyun-seung, Kim, Tae Hyeon, Kim, Wontak, Park, Sung Su, Jeong, Goojin

“…Though lithium-ion batteries (LIBs) have seen a meteoric rise in worldwide deployment over the last decade, they should be further advanced in constant demand…”
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Effect of Na from the leachate of spent Li-ion batteries on the properties of resynthesized Li-ion battery cathodes by Beak, Mincheol, Park, Sanghyuk, Kim, Sangjun, Park, Jangho, Jeong, Seongdeock, Thirumalraj, Balamurugan, Jeong, Goojin, Kim, Taehyeon, Kwon, Kyungjung

“…The explosion of spent Li-ion batteries (LIBs) during the LIB recycling process is often avoided by the discharging process where spent LIBs are soaked into…”
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Anti-corrosive and surface-stabilizing functional electrolyte containing LiFSI and LiPO2F2 for SiOx/NCM811-based batteries by Kim, Ji Won, Seong, Min Ji, Park, Dae Woon, Jeong, Goojin, Yim, Taeeun

“…Silicon oxide (SiOx) has attracted considerable attention as an advanced anode material; however, SiOx becomes extensively pulverized during an electrochemical…”
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Sulfide‐Compatible Conductive and Adhesive Glue‐Like Interphase Engineering for Sheet‐Type All‐Solid‐State Battery by Cho, Woosuk, Park, Jesik, Kim, Kyungsu, Yu, Ji‐Sang, Jeong, Goojin

“…An all‐solid‐state lithium battery based on a sulfide electrolyte is one of the most promising next‐generation energy storage systems. However, the high…”
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In situ fabrication of nanohybrid carbon/polyamide film providing robust binding and conductive network in silicon anode for lithium-ion battery by Cho, Hyunwoo, Kim, Kyungsu, Park, Cheol-Min, Jeong, Goojin

“…Engineering of a composite electrode containing Si-based anode materials is important for the practical applications of Si-based lithium-ion batteries. In this…”
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Interphasial Engineering via Individual Moiety Functionalized Organosilane Single-Molecule for Extreme Quick Rechargeable SiO/NCM811 Lithium-Ion Batteries by Kim, Hyun-seung, Kim, Tae Hyeon, Park, Sung Su, Kang, Min Su, Jeong, Goojin

“…The individual moiety-functionalized organosilane single molecule, that is, 1,1,1,5,5,5-hexamethyl-3-[(trimethylsilyl)­oxy]-3-vinyltrisiloxane (TMSV), is…”
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Surface engineering of graphite anode material with black TiO2-x for fast chargeable lithium ion battery by Kim, Dae Sik, Chung, Dong Jae, Bae, Juhye, Jeong, Goojin, Kim, Hansu

“…One of the most important challenges in the improvement of the lithium ion battery (LIB) for electric vehicle (EV) applications is its fast charging…”
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Electrochemical effects of residual Al in the resynthesis of Li[Ni1/3Mn1/3Co1/3]O2 cathode materials by Kim, Sangjun, Park, Sanghyuk, Jo, Minsang, Beak, Mincheol, Park, Jangho, Jeong, Goojin, Yu, Ji-Sang, Kwon, Kyungjung

“…As the demand for various electronic devices using the advantages of lithium ion batteries (LIBs) increases, the disposal of LIBs has also been an important…”
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Anti-corrosive and surface-stabilizing functional electrolyte containing LiFSI and LiPO2F2 for SiO /NCM811-based batteries by Kim, Ji Won, Seong, Min Ji, Park, Dae Woon, Jeong, Goojin, Yim, Taeeun

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Lithium-Ion Intercalation into Graphite in SO2‑Based Inorganic Electrolyte toward High-Rate-Capable and Safe Lithium-Ion Batteries by Kim, Ayoung, Jung, Hojae, Song, Juhye, Kim, Hyun Jong, Jeong, Goojin, Kim, Hansu

“…Herein, we have identified that lithium ions in an SO2-based inorganic electrolyte reversibly intercalate and deintercalate into/out of graphite electrode…”
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Effect of chemical reactivity of polysulfide toward carbonate-based electrolyte on the electrochemical performance of Li–S batteries by Yim, Taeeun, Park, Min-Sik, Yu, Ji-Sang, Kim, Ki Jae, Im, Keun Yung, Kim, Jae-Hun, Jeong, Goojin, Jo, Yong Nam, Woo, Sang-Gil, Kang, Kyoung Seok, Lee, Ingurl, Kim, Young-Jun

“…A chemical stability between polysulfides and electrolyte is considered to be crucial to achieving good electrochemical performance of lithium–sulfur (Li–S)…”
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Innovative Sn-gradient sulfide solid electrolytes with superior air-stability for practical all-solid-state batteries by Ko, Sumin, Kim, Kyungjun, Hee Kim, So, Jeong, Goojin, Kim, Hyoyeong, Lee, Daon, Lee, Kyulin, Hyok Song, Jay, Lee, Sang-Min

“…•Moisture-stable sulfide solid electrolyte was synthesized in a core–shell form.•The solid electrolyte showed excellent mechanical ductility after moisture…”
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