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유기나노공학과 홈페이지 참고(2019.10.) | 유기나노공학과 홈페이지 참고(2019.10.) | ||
=학력= | =학력= | ||
| − | * Apr. 2012 The University of Michigan Ph.D. in Macromolecular Science & Engineering / Electrical Engineering Solid State Electronics Laboratory (SSEL) | + | |
| − | * Feb. 2004 Seoul National University (SNU) Master of Science in Materials Science & Engineering Nanomaterials for Eco-Friendly Energy Conversion Laboratory | + | *Apr. 2012 The University of Michigan Ph.D. in Macromolecular Science & Engineering / Electrical Engineering Solid State Electronics Laboratory (SSEL) |
| − | * Feb. 2002 Seoul National University (SNU) Bachelor of Science in Materials Science & Engineering | + | *Feb. 2004 Seoul National University (SNU) Master of Science in Materials Science & Engineering Nanomaterials for Eco-Friendly Energy Conversion Laboratory |
| + | *Feb. 2002 Seoul National University (SNU) Bachelor of Science in Materials Science & Engineering | ||
=경력= | =경력= | ||
| − | * Sep. 2019 ~ Present Hanyang University Associate Professor, Department of Organic and Nano Engineering | + | |
| − | * Sep. 2015 ~ Aug. 2019 Ajou University Assistant / Associate Professor, Department of Electrical and Computer Engineering | + | *Sep. 2019 ~ Present Hanyang University Associate Professor, Department of Organic and Nano Engineering |
| − | * Sep. 2014 ~ Aug. 2019 Ajou University Assistant / Associate Professor, Department of Energy Systems Research | + | *Sep. 2015 ~ Aug. 2019 Ajou University Assistant / Associate Professor, Department of Electrical and Computer Engineering |
| − | * Mar. 2012 ~ Feb. 2014 Intel Corporation Senior Research Engineer (Full-Time Staff), Portland Technology Development | + | *Sep. 2014 ~ Aug. 2019 Ajou University Assistant / Associate Professor, Department of Energy Systems Research |
| − | * Oct. 2007 ~ Dec. 2011 The University of Michigan Research Assistant, Department of Electrical Engineering & Computer Science | + | *Mar. 2012 ~ Feb. 2014 Intel Corporation Senior Research Engineer (Full-Time Staff), Portland Technology Development |
| − | * Mar. 2006 ~ Jul. 2007 Korea Institute of Science and Technology (KIST) Research Scientist (Full-Time Staff), Hybrid Materials Research Center | + | *Oct. 2007 ~ Dec. 2011 The University of Michigan Research Assistant, Department of Electrical Engineering & Computer Science |
| − | * Mar. 2004 ~ Mar.2006 LG Electronics, Inc. Research Engineer (Full-Time Staff), Eco-Technology Group, CTO Division | + | *Mar. 2006 ~ Jul. 2007 Korea Institute of Science and Technology (KIST) Research Scientist (Full-Time Staff), Hybrid Materials Research Center |
| − | * Mar. 2002 ~ Feb. 2004 Seoul National University (SNU) Research Assistant, Department of Materials Science & Engineering | + | *Mar. 2004 ~ Mar.2006 LG Electronics, Inc. Research Engineer (Full-Time Staff), Eco-Technology Group, CTO Division |
| + | *Mar. 2002 ~ Feb. 2004 Seoul National University (SNU) Research Assistant, Department of Materials Science & Engineering | ||
=연구관심분야= | =연구관심분야= | ||
Semiconductor/display materials and devices | Semiconductor/display materials and devices | ||
| − | = 주요연구 = | + | =주요연구= |
| − | == 갈륨비소(GsAs) 화합물'에 '페로브스카이트 반도체'를 결합한 '탠덤 태양전지' 개발(2020.01) == | + | ==갈륨비소(GsAs) 화합물'에 '페로브스카이트 반도체'를 결합한 '탠덤 태양전지' 개발(2020.01)== |
| − | * 한양대 [[유기나노공학과]] 박희준 교수와 아주대 이재진 교수 공동연구팀이 유연한 '갈륨비소(GsAs) 화합물'에 '페로브스카이트 반도체'를 결합한 '탠덤 태양전지'를 개발했다. | + | |
| − | * 갈륨비소 화합물 위에 쌓아올려 제작한 탠덤 | + | *한양대 [[유기나노공학과]] 박희준 교수와 아주대 이재진 교수 공동연구팀이 유연한 '갈륨비소(GsAs) 화합물'에 '페로브스카이트 반도체'를 결합한 '탠덤 태양전지'를 개발했다. |
| − | * 가볍고 유연한 화합물 반도체 태양전지의 광전환효율을 높이기 위해 저가의 페로브스카이트를 활용한 탠덤 구조 태양전지 구현을 통해 비용 상승 부담을 완화했다. | + | *갈륨비소 화합물 위에 쌓아올려 제작한 [[탠덤 태양전지]]는 기존보다 효율이 15% 이상 높은 것으로 나타났다. |
| − | * 장파장 빛을 흡수하는 화합물 반도체 결정 위에 단파장의 빛을 흡수하는 페로브스카이트 박막을 적층, 보다 다양한 파장의 빛을 활용하도록 함으로써 전기에너지 변환효율을 높이는 방식이다. | + | *가볍고 유연한 화합물 반도체 태양전지의 광전환효율을 높이기 위해 저가의 페로브스카이트를 활용한 탠덤 구조 태양전지 구현을 통해 비용 상승 부담을 완화했다. |
| − | * 탠덤 태양전지는 자동차, 무인비행기, 웨어러블 기기는 물론 사물인터넷(IoT) 센서 에너지원 등으로 활용할 수 있을 것이다. | + | *장파장 빛을 흡수하는 화합물 반도체 결정 위에 단파장의 빛을 흡수하는 페로브스카이트 박막을 적층, 보다 다양한 파장의 빛을 활용하도록 함으로써 전기에너지 변환효율을 높이는 방식이다. |
| − | * | + | *탠덤 태양전지는 자동차, 무인비행기, 웨어러블 기기는 물론 사물인터넷(IoT) 센서 에너지원 등으로 활용할 수 있을 것이다. |
| + | *지원 : 과학기술정보통신부, 교육부, 한국연구재단이 추진하는 기초연구사업 (중견연구 및 기본연구 등) 등 | ||
| + | *연구 결과는 국제 학술지 「Advanced Energy Materials」 2019년 12월 19일 자 표지논문으로 게재 | ||
=주요논문= | =주요논문= | ||
| − | |||
| − | * Direct Synthesis of Thickness-Tunable MoS2 Quantum Dot Thin Layers: Optical, Structural and Electrical Properties and Their Application to Hydrogen Evolution Nano Energy, 35, 101 (2017) | + | *Management of Transition Dipoles in Organic Hole-Transporting Materials under Solar Irradiation for Perovskite Solar Cells Nature Communications, 9, 4537 (2018) |
| + | |||
| + | *Direct Synthesis of Thickness-Tunable MoS2 Quantum Dot Thin Layers: Optical, Structural and Electrical Properties and Their Application to Hydrogen Evolution Nano Energy, 35, 101 (2017) | ||
| − | * Advanced Heterojunction Structures of Polymer Solar Cells Generating High Photocurrent with Internal Quantum Efficiency Approaching 100% Advanced Energy Materials, 3, 1135 (2013) | + | *Advanced Heterojunction Structures of Polymer Solar Cells Generating High Photocurrent with Internal Quantum Efficiency Approaching 100% Advanced Energy Materials, 3, 1135 (2013) |
| − | * Optimization of Polymer Solar Cells with Bulk Heterojunction Layers Hundreds of Nanometers Thick: Modifying the Morphology and Cathode Interface Energy & Environmental Science, 6, 2203 (2013) | + | *Optimization of Polymer Solar Cells with Bulk Heterojunction Layers Hundreds of Nanometers Thick: Modifying the Morphology and Cathode Interface Energy & Environmental Science, 6, 2203 (2013) |
| − | * Photonic Color Filters Incorporated with Organic Solar Cells for Energy Harvesting ACS Nano, 5, 7055 (2011) | + | *Photonic Color Filters Incorporated with Organic Solar Cells for Energy Harvesting ACS Nano, 5, 7055 (2011) |
| − | * Continuous Patterning of Nanogratings by Nanochannel-Guided Lithography on Liquid Resists Advanced Materials, 23, 4444 (2011) | + | *Continuous Patterning of Nanogratings by Nanochannel-Guided Lithography on Liquid Resists Advanced Materials, 23, 4444 (2011) |
| − | * Facile Route to Polymer Solar Cells with Optimum Morphology Readily Applicable to Roll-to-Roll Process without Sacrificing High Device Performances Advanced Materials, 22, E247 (2010) | + | *Facile Route to Polymer Solar Cells with Optimum Morphology Readily Applicable to Roll-to-Roll Process without Sacrificing High Device Performances Advanced Materials, 22, E247 (2010) |
| − | * Efficiency Enhancement of Organic Solar Cells using Transparent Plasmonic Ag Nanowire Electrodes Advanced Materials, 22, 4378 (2010) | + | *Efficiency Enhancement of Organic Solar Cells using Transparent Plasmonic Ag Nanowire Electrodes Advanced Materials, 22, 4378 (2010) |
| − | * Large Area High Density Sub-20 nm SiO2 Nanostructures Fabricated by Block Copolymer Template for Nanoimprint Lithography ACS Nano, 3, 2601 (2009) | + | *Large Area High Density Sub-20 nm SiO2 Nanostructures Fabricated by Block Copolymer Template for Nanoimprint Lithography ACS Nano, 3, 2601 (2009) |
| − | * Giant Thermal Tunability of the Lamellar Spacing in Block-Copolymer-Like Supramolecules Formed from Binary-End-Functionalized Polymer Blends Advanced Materials, 18, 624 (2006) | + | *Giant Thermal Tunability of the Lamellar Spacing in Block-Copolymer-Like Supramolecules Formed from Binary-End-Functionalized Polymer Blends Advanced Materials, 18, 624 (2006) |
=저서= | =저서= | ||
=수상= | =수상= | ||
| − | |||
| − | |||
| − | |||
| − | * | + | *Ajou Publication Awards, Ajou University (2016, 2017, 2018) |
| + | *LTD Divisional Award (2 times), Intel Corporation (2013, 2014) | ||
| + | *Horace H. Rackham Predoctoral Fellowship, The University of Michigan (2011-2012) : the highest honor graduate school bestows on Ph.D. candidates | ||
| − | * | + | *Charles G. Overberger Award, The University of Michigan (2010) : in recognition of excellence in research for Ph.D. |
| − | * | + | *Horace H. Rackham International Student Fellowship, The University of Michigan (2009) : awarded to outstanding international graduate students |
| − | |||
| − | * Outstanding Achievement Award: 2nd (2 times), CTO Division, LG Electronics (2004, 2005) | + | *Macro/Rackham Block Grant Fellowship, The University of Michigan (2007-2008) |
| − | * Distinguished honor scholarship, Seoul National University (B.S.: 1998-2001, M.S.: 2002) | + | *Korea Government Overseas Study Fellowship, Korea Government (2007-2009) : one of 30 awardees, nationally |
| + | |||
| + | *Outstanding Achievement Award: 2nd (2 times), CTO Division, LG Electronics (2004, 2005) | ||
| + | *Distinguished honor scholarship, Seoul National University (B.S.: 1998-2001, M.S.: 2002) | ||
=관련 기사= | =관련 기사= | ||
| − | * 2020.01.31 | + | |
| + | *<뉴스H> 2020.01.31 박희준 교수, 화합물 반도체에 페로브스카이트 결합 태양전지 효율 높이다 http://www.newshyu.com/news/articleView.html?idxno=751043 | ||
| + | *<뉴스H> 2023.04.07 [http://www.newshyu.com/news/articleView.html?idxno=1009479 인공지능 반도체 핵심 소자의 한계를 극복하다] | ||
[[분류: 교수]] | [[분류: 교수]] | ||
[[분류:유기나노공학과]] | [[분류:유기나노공학과]] | ||
2023년 7월 2일 (일) 21:43 기준 최신판
박희준은 서울캠퍼스 공과대학 유기나노공학과 교수이자, 전자 소재 및 소자 연구실장을 겸임하고 있다.
유기나노공학과 홈페이지 참고(2019.10.)
목차
학력
- Apr. 2012 The University of Michigan Ph.D. in Macromolecular Science & Engineering / Electrical Engineering Solid State Electronics Laboratory (SSEL)
- Feb. 2004 Seoul National University (SNU) Master of Science in Materials Science & Engineering Nanomaterials for Eco-Friendly Energy Conversion Laboratory
- Feb. 2002 Seoul National University (SNU) Bachelor of Science in Materials Science & Engineering
경력
- Sep. 2019 ~ Present Hanyang University Associate Professor, Department of Organic and Nano Engineering
- Sep. 2015 ~ Aug. 2019 Ajou University Assistant / Associate Professor, Department of Electrical and Computer Engineering
- Sep. 2014 ~ Aug. 2019 Ajou University Assistant / Associate Professor, Department of Energy Systems Research
- Mar. 2012 ~ Feb. 2014 Intel Corporation Senior Research Engineer (Full-Time Staff), Portland Technology Development
- Oct. 2007 ~ Dec. 2011 The University of Michigan Research Assistant, Department of Electrical Engineering & Computer Science
- Mar. 2006 ~ Jul. 2007 Korea Institute of Science and Technology (KIST) Research Scientist (Full-Time Staff), Hybrid Materials Research Center
- Mar. 2004 ~ Mar.2006 LG Electronics, Inc. Research Engineer (Full-Time Staff), Eco-Technology Group, CTO Division
- Mar. 2002 ~ Feb. 2004 Seoul National University (SNU) Research Assistant, Department of Materials Science & Engineering
연구관심분야
Semiconductor/display materials and devices
주요연구
갈륨비소(GsAs) 화합물'에 '페로브스카이트 반도체'를 결합한 '탠덤 태양전지' 개발(2020.01)
- 한양대 유기나노공학과 박희준 교수와 아주대 이재진 교수 공동연구팀이 유연한 '갈륨비소(GsAs) 화합물'에 '페로브스카이트 반도체'를 결합한 '탠덤 태양전지'를 개발했다.
- 갈륨비소 화합물 위에 쌓아올려 제작한 탠덤 태양전지는 기존보다 효율이 15% 이상 높은 것으로 나타났다.
- 가볍고 유연한 화합물 반도체 태양전지의 광전환효율을 높이기 위해 저가의 페로브스카이트를 활용한 탠덤 구조 태양전지 구현을 통해 비용 상승 부담을 완화했다.
- 장파장 빛을 흡수하는 화합물 반도체 결정 위에 단파장의 빛을 흡수하는 페로브스카이트 박막을 적층, 보다 다양한 파장의 빛을 활용하도록 함으로써 전기에너지 변환효율을 높이는 방식이다.
- 탠덤 태양전지는 자동차, 무인비행기, 웨어러블 기기는 물론 사물인터넷(IoT) 센서 에너지원 등으로 활용할 수 있을 것이다.
- 지원 : 과학기술정보통신부, 교육부, 한국연구재단이 추진하는 기초연구사업 (중견연구 및 기본연구 등) 등
- 연구 결과는 국제 학술지 「Advanced Energy Materials」 2019년 12월 19일 자 표지논문으로 게재
주요논문
- Management of Transition Dipoles in Organic Hole-Transporting Materials under Solar Irradiation for Perovskite Solar Cells Nature Communications, 9, 4537 (2018)
- Direct Synthesis of Thickness-Tunable MoS2 Quantum Dot Thin Layers: Optical, Structural and Electrical Properties and Their Application to Hydrogen Evolution Nano Energy, 35, 101 (2017)
- Advanced Heterojunction Structures of Polymer Solar Cells Generating High Photocurrent with Internal Quantum Efficiency Approaching 100% Advanced Energy Materials, 3, 1135 (2013)
- Optimization of Polymer Solar Cells with Bulk Heterojunction Layers Hundreds of Nanometers Thick: Modifying the Morphology and Cathode Interface Energy & Environmental Science, 6, 2203 (2013)
- Photonic Color Filters Incorporated with Organic Solar Cells for Energy Harvesting ACS Nano, 5, 7055 (2011)
- Continuous Patterning of Nanogratings by Nanochannel-Guided Lithography on Liquid Resists Advanced Materials, 23, 4444 (2011)
- Facile Route to Polymer Solar Cells with Optimum Morphology Readily Applicable to Roll-to-Roll Process without Sacrificing High Device Performances Advanced Materials, 22, E247 (2010)
- Efficiency Enhancement of Organic Solar Cells using Transparent Plasmonic Ag Nanowire Electrodes Advanced Materials, 22, 4378 (2010)
- Large Area High Density Sub-20 nm SiO2 Nanostructures Fabricated by Block Copolymer Template for Nanoimprint Lithography ACS Nano, 3, 2601 (2009)
- Giant Thermal Tunability of the Lamellar Spacing in Block-Copolymer-Like Supramolecules Formed from Binary-End-Functionalized Polymer Blends Advanced Materials, 18, 624 (2006)
저서
수상
- Ajou Publication Awards, Ajou University (2016, 2017, 2018)
- LTD Divisional Award (2 times), Intel Corporation (2013, 2014)
- Horace H. Rackham Predoctoral Fellowship, The University of Michigan (2011-2012) : the highest honor graduate school bestows on Ph.D. candidates
- Charles G. Overberger Award, The University of Michigan (2010) : in recognition of excellence in research for Ph.D.
- Horace H. Rackham International Student Fellowship, The University of Michigan (2009) : awarded to outstanding international graduate students
- Macro/Rackham Block Grant Fellowship, The University of Michigan (2007-2008)
- Korea Government Overseas Study Fellowship, Korea Government (2007-2009) : one of 30 awardees, nationally
- Outstanding Achievement Award: 2nd (2 times), CTO Division, LG Electronics (2004, 2005)
- Distinguished honor scholarship, Seoul National University (B.S.: 1998-2001, M.S.: 2002)
관련 기사
- <뉴스H> 2020.01.31 박희준 교수, 화합물 반도체에 페로브스카이트 결합 태양전지 효율 높이다 http://www.newshyu.com/news/articleView.html?idxno=751043
- <뉴스H> 2023.04.07 인공지능 반도체 핵심 소자의 한계를 극복하다
