Search Results - "Chae, Sujong"

Integration of Graphite and Silicon Anodes for the Commercialization of High‐Energy Lithium‐Ion Batteries by Chae, Sujong, Choi, Seong‐Hyeon, Kim, Namhyung, Sung, Jaekyung, Cho, Jaephil

“…Silicon is considered a most promising anode material for overcoming the theoretical capacity limit of carbonaceous anodes. The use of nanomethods has led to…”
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Fast-charging high-energy lithium-ion batteries via implantation of amorphous silicon nanolayer in edge-plane activated graphite anodes by Kim, Namhyung, Chae, Sujong, Ma, Jiyoung, Ko, Minseong, Cho, Jaephil

“…As fast-charging lithium-ion batteries turn into increasingly important components in forthcoming applications, various strategies have been devoted to the…”
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Nickel-Rich Layered Lithium Transition-Metal Oxide for High-Energy Lithium-Ion Batteries by Liu, Wen, Oh, Pilgun, Liu, Xien, Lee, Min-Joon, Cho, Woongrae, Chae, Sujong, Kim, Youngsik, Cho, Jaephil

“…High energy‐density lithium‐ion batteries are in demand for portable electronic devices and electrical vehicles. Since the energy density of the batteries…”
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Elastic a‑Silicon Nanoparticle Backboned Graphene Hybrid as a Self-Compacting Anode for High-Rate Lithium Ion Batteries by Ko, Minseong, Chae, Sujong, Jeong, Sookyung, Oh, Pilgun, Cho, Jaephil

“…Although various Si-based graphene nanocomposites provide enhanced electrochemical performance, these candidates still yield low initial coloumbic efficiency,…”
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Challenges in Accommodating Volume Change of Si Anodes for Li‐Ion Batteries by Ko, Minseong, Chae, Sujong, Cho, Jaephil

“…Si has been considered as a promising alternative anode for next‐generation Li‐ion batteries (LIBs) because of its high theoretical energy density, relatively…”
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Scalable synthesis of silicon-nanolayer-embedded graphite for high-energy lithium-ion batteries by Ko, Minseong, Chae, Sujong, Ma, Jiyoung, Kim, Namhyung, Lee, Hyun-Wook, Cui, Yi, Cho, Jaephil

“…Existing anode technologies are approaching their limits, and silicon is recognized as a potential alternative due to its high specific capacity and abundance…”
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Towards maximized volumetric capacity via pore-coordinated design for large-volume-change lithium-ion battery anodes by Ma, Jiyoung, Sung, Jaekyung, Hong, Jaehyung, Chae, Sujong, Kim, Namhyung, Choi, Seong-Hyeon, Nam, Gyutae, Son, Yoonkook, Kim, Sung Youb, Ko, Minseong, Cho, Jaephil

“…To achieve the urgent requirement for high volumetric energy density in lithium-ion batteries, alloy-based anodes have been spotlighted as next-generation…”
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Metal (Ni, Co)-Metal Oxides/Graphene Nanocomposites as Multifunctional Electrocatalysts by Liu, Xien, Liu, Wen, Ko, Minseong, Park, Minjoon, Kim, Min Gyu, Oh, Pilgun, Chae, Sujong, Park, Suhyeon, Casimir, Anix, Wu, Gang, Cho, Jaephil

“…Oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) along with hydrogen evolution reaction (HER) have been considered critical processes for…”
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Subnano-sized silicon anode via crystal growth inhibition mechanism and its application in a prototype battery pack by Sung, Jaekyung, Kim, Namhyung, Ma, Jiyoung, Lee, Jeong Hyeon, Joo, Se Hun, Lee, Taeyong, Chae, Sujong, Yoon, Moonsu, Lee, Yoonkwang, Hwang, Jaeseong, Kwak, Sang Kyu, Cho, Jaephil

“…Due to the large volume variation of high-capacity alloy-based anodes during cycling, it is desirable to use small anode particles for an extended battery…”
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Strategic Pore Architecture for Accommodating Volume Change from High Si Content in Lithium‐Ion Battery Anodes by Ma, Jiyoung, Sung, Jaekyung, Lee, Yoonkwang, Son, Yeonguk, Chae, Sujong, Kim, Namhyung, Choi, Seong‐Hyeon, Cho, Jaephil

“…To be a thinner and more lightweight lithium‐ion battery with high energy density, the next‐generation anode with high gravimetric and volumetric capacity is a…”
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Evolution of the rate-limiting step: From thin film to thick Ni-rich cathodes by Hu, Jiangtao, Wu, Bingbin, Cao, Xia, Bi, Yujing, Chae, Sujong, Niu, Chaojiang, Xiao, Biwei, Tao, Jinhui, Zhang, Jiguang, Xiao, Jie

“…Ni-rich NMC (LiNixMnyCo1-x-yO2, x ≥ 0.6) has the attributes of high specific capacity (greater than 180 mAh/g), high operating voltage (ca. 3.8 V) and low…”
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Hollow Silicon Nanostructures via the Kirkendall Effect by Son, Yoonkook, Son, Yeonguk, Choi, Min, Ko, Minseong, Chae, Sujong, Park, Noejung, Cho, Jaephil

“…The Kirkendall effect is a simple, novel phenomenon that may be applied for the synthesis of hollow nanostructures with designed pore structures and chemical…”
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Fabrication of Lamellar Nanosphere Structure for Effective Stress‐Management in Large‐Volume‐Variation Anodes of High‐Energy Lithium‐Ion Batteries by Sung, Jaekyung, Ma, Jiyoung, Choi, Seong‐Hyeon, Hong, Jaehyung, Kim, Namhyung, Chae, Sujong, Son, Yeonguk, Kim, Sung Youb, Cho, Jaephil

“…The use of high‐capacity anode materials to overcome the energy density limits imposed by the utilization of low‐theoretical‐capacity conventional graphite has…”
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Effects of Fluorinated Diluents in Localized High‐Concentration Electrolytes for Lithium–Oxygen Batteries by Kwak, Won‐Jin, Lim, Hyung‐Seok, Gao, Peiyuan, Feng, Ruozhu, Chae, Sujong, Zhong, Lirong, Read, Jeffrey, Engelhard, Mark H., Xu, Wu, Zhang, Ji‐Guang

“…A stable electrolyte is critical for practical application of lithium–oxygen batteries (LOBs). Although the ionic conductivity and electrochemical stability of…”
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Flexible High-Energy Li-Ion Batteries with Fast-Charging Capability by Park, Mi-Hee, Noh, Mijung, Lee, Sanghan, Ko, Minseong, Chae, Sujong, Sim, Soojin, Choi, Sinho, Kim, Hyejung, Nam, Haisol, Park, Soojin, Cho, Jaephil

“…With the development of flexible mobile devices, flexible Li-ion batteries have naturally received much attention. Previously, all reported flexible components…”
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Sequential Effect of Dual‐Layered Hybrid Graphite Anodes on Electrode Utilization During Fast‐Charging Li‐Ion Batteries by Kang, Jiwoong, Lim, Jaejin, Lee, Hyuntae, Park, Seongsu, Bak, Cheol, Shin, Yewon, An, Hyeongguk, Lee, Mingyu, Lee, Minju, Lee, Soyeon, Choi, Byungjun, Kang, Dongyoon, Chae, Sujong, Lee, Yong Min, Lee, Hongkyung

“…To recharge lithium‐ion batteries quickly and safely while avoiding capacity loss and safety risks, a novel electrode design that minimizes cell polarization…”
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Crosslinked Polyethyleneimine Gel Polymer Interface to Improve Cycling Stability of RFBs by Lim, Hyung-Seok, Chae, Sujong, Yan, Litao, Li, Guosheng, Feng, Ruozhu, Shin, Yongsoon, Nie, Zimin, Sivakumar, Bhuvaneswari Modachur, Zhang, Xin, Liang, Yangang, Bazak, David Jonathan, Shutthanandan, Vaithiyalingam, Murugesan, Vijayakumar, Kim, Soowhan, Wang, Wei

“…Redox flow batteries are considered a promising technology for grid energy storage. However, capacity decay caused by crossover of active materials is a…”
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Author Correction: Scalable synthesis of silicon-nanolayer-embedded graphite for high-energy lithium-ion batteries by Ko, Minseong, Chae, Sujong, Ma, Jiyoung, Kim, Namhyung, Lee, Hyun-Wook, Cui, Yi, Cho, Jaephil

“…An amendment to this paper has been published and can be accessed via a link at the top of the paper…”
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One‐to‐One Comparison of Graphite‐Blended Negative Electrodes Using Silicon Nanolayer‐Embedded Graphite versus Commercial Benchmarking Materials for High‐Energy Lithium‐Ion Batteries by Chae, Sujong, Kim, Namhyung, Ma, Jiyoung, Cho, Jaephil, Ko, Minseong

“…While existing carbonaceous anodes for lithium–ion batteries (LIBs) are approaching a practical capacitive limit, Si has been extensively examined as a…”
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Advances and Prospects of Sulfide All‐Solid‐State Lithium Batteries via One‐to‐One Comparison with Conventional Liquid Lithium Ion Batteries by Lee, Hyomyung, Oh, Pilgun, Kim, Junhyeok, Cha, Hyungyeon, Chae, Sujong, Lee, Sanghan, Cho, Jaephil

“…Owing to the safety issue of lithium ion batteries (LIBs) under the harsh operating conditions of electric vehicles and mobile devices, all‐solid‐state lithium…”
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