나노섬유&에너지소자 연구실
지도교원:이병선
구성원: 교원(교직원) 1명
홈페이지:바로가기
전화번호:031-8005-3575
위치:죽전캠퍼스 제3공학관 3층 나노섬유&에너지소자 연구실 304호실
구성원 소개
연혁
2020
- 09월 01일
- 연구재단 생애첫 과제 수주
2021
- 01월 01일
- 삼성 SDI 과제 수주
- 01월 01일
- 한국생산기술연구원 위탁과제 수주
- 06월 01일
- 연구재단 기본 과제 수주
2022
- 03월 01일
- 첫 학부연구생 Alumni 4명 배출 (한국생산기술연구원 학연생 2명 포함)
- 06월 01일
- 첫 대기업 (SK on) 취업자 배출
- 09월 01일
- 첫 석사과정 입학
연구분야
- 공축전기방사 공정 기술 개발
- 용융전기방사 공정 기술 개발
- 이차전지 음극재 (Hard carbon, silicon, tin) 개발
- 이차전지 분리막 개발
- 차세대 전지 연구
- 여과소재 개발
- 나노제너레이터 연구
연구내용 및 보유기술
<나노섬유 공정 기술 개발>
1. 공축 전기방사 공정 기반 다층 나노섬유 제조 연구
- Fabrication of double-tubular carbon nanofibers using quadruple coaxial electrospinning, Byoung-Sun Lee, Ho-Sung Yang, Woong-Ryeol Yu, Nanotechnology, 25(46), 465602, 2014
- New electrospinning nozzle to reduce jet instability and its application to manufacture of multi-layered nanofibers, Byoung-Sun Lee, Seung-Yeol Jeon, Haedong Park, Geunsung Lee, Ho-Sung Yang, Woong-Ryeol Yu, Scientific Reports, 4, 6758, 2014
2. 공축 전기방사 공정 기반 다채널 나노섬유 제조 연구
- Rational design of a Si–Sn–C ternary anode having exceptional rate performance, Byoung-Sun Lee, Ho-Sung Yang, Kang Hee Lee, Sung Soo Han, Woong-Ryeol Yu, Energy Storage Materials, 17, 62-69, 2019
- Fabrication of double-tubular carbon nanofibers using quadruple coaxial electrospinning, Byoung-Sun Lee, Ho-Sung Yang, Woong-Ryeol Yu, Nanotechnology, 25(46), 465602, 2014
- New electrospinning nozzle to reduce jet instability and its application to manufacture of multi-layered nanofibers, Byoung-Sun Lee, Seung-Yeol Jeon, Haedong Park, Geunsung Lee, Ho-Sung Yang, Woong-Ryeol Yu, Scientific Reports, 4, 6758, 2014
2. 공축 전기방사 공정 기반 다채널 나노섬유 제조 연구
- Rational design of a Si–Sn–C ternary anode having exceptional rate performance, Byoung-Sun Lee, Ho-Sung Yang, Kang Hee Lee, Sung Soo Han, Woong-Ryeol Yu, Energy Storage Materials, 17, 62-69, 2019
<이차전지 음극재 개발>
1. 공축 전기방사 공정 기반 나노섬유 음극재 제조 연구
- Face-Centered-Cubic Lithium Crystals Formed in Mesopores of Carbon Nanofiber Electrodes, Byoung-Sun Lee et al., ACS nano, 7(7), 5801-5807, 2013
2. 실리콘 복합 음극 소재 제조 연구
- Silicon/Carbon Nanotube/BaTiO3 Nanocomposite Anode: Evidence for Enhanced Lithium-Ion Mobility Induced by the Local Piezoelectric Potential, Byoung-Sun Lee et al., ACS nano, 10, 2617-2627, 2016
- Simple design of a Si–Sn–C ternary composite anode for Li-ion batteries, Ho-Sung Yang, Byoung-Sun Lee*, and Woong-Ryeol Yu*, Journal of Industrial and Engineering Chemistry, 98, 275-282, 2021
- Face-Centered-Cubic Lithium Crystals Formed in Mesopores of Carbon Nanofiber Electrodes, Byoung-Sun Lee et al., ACS nano, 7(7), 5801-5807, 2013
2. 실리콘 복합 음극 소재 제조 연구
- Silicon/Carbon Nanotube/BaTiO3 Nanocomposite Anode: Evidence for Enhanced Lithium-Ion Mobility Induced by the Local Piezoelectric Potential, Byoung-Sun Lee et al., ACS nano, 10, 2617-2627, 2016
- Simple design of a Si–Sn–C ternary composite anode for Li-ion batteries, Ho-Sung Yang, Byoung-Sun Lee*, and Woong-Ryeol Yu*, Journal of Industrial and Engineering Chemistry, 98, 275-282, 2021
<차세대 전지 연구>
1. 리튬 메탈 보호층 연구
- A scalable, ecofriendly, and cost-effective lithium metal protection layer from a Post-it note, Yeonsong Kim, Jun Choi, Ji Ho Youk, Byoung-Sun Lee*, and Woong-Ryeol Yu*, RSC Advances, 12(1), 346-354, 2022
2. 수계 아연 전지 연구
- Dendrite Suppression Membranes for Rechargeable Zinc Batteries, Byoung-Sun Lee, Shuang Cui, Xing Xing, Haodong Liu, Xiujun Yue, Renkun Chen, and Ping Liu, ACS Applied Materials & Interfaces, 10 (45), 38928-38935, 2018
- A scalable, ecofriendly, and cost-effective lithium metal protection layer from a Post-it note, Yeonsong Kim, Jun Choi, Ji Ho Youk, Byoung-Sun Lee*, and Woong-Ryeol Yu*, RSC Advances, 12(1), 346-354, 2022
2. 수계 아연 전지 연구
- Dendrite Suppression Membranes for Rechargeable Zinc Batteries, Byoung-Sun Lee, Shuang Cui, Xing Xing, Haodong Liu, Xiujun Yue, Renkun Chen, and Ping Liu, ACS Applied Materials & Interfaces, 10 (45), 38928-38935, 2018
<나노제너레이터 연구>
1. 압전 제너레이터 연구
- Effects of substrate on piezoelectricity of electrospun poly (vinylidene fluoride)-nanofiber-based energy generators, Byoung-Sun Lee, et al., ACS applied materials & interfaces, 6(5), 3520-3527, 2014
2. 압전 센서 연구
- Highly stretchable resistive pressure sensors using a conductive elastomeric composite on a micropyramid array, Chwee-Lin Choong et al., Advanced Materials, 26(21), 3451-3458, 2014
3. 마찰전기 제너레이터 연구
- Flutter-driven triboelectrification for harvesting wind energy, Jihyun Bae et al., Nature Communications, 5, 4929, 2014
- Effects of substrate on piezoelectricity of electrospun poly (vinylidene fluoride)-nanofiber-based energy generators, Byoung-Sun Lee, et al., ACS applied materials & interfaces, 6(5), 3520-3527, 2014
2. 압전 센서 연구
- Highly stretchable resistive pressure sensors using a conductive elastomeric composite on a micropyramid array, Chwee-Lin Choong et al., Advanced Materials, 26(21), 3451-3458, 2014
3. 마찰전기 제너레이터 연구
- Flutter-driven triboelectrification for harvesting wind energy, Jihyun Bae et al., Nature Communications, 5, 4929, 2014