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 * 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

 * 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

=주요연구과제주요연구==주요논문=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 태양전지]]는 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.* Management of Transition Dipoles in Organic Hole-Transporting Materials under Solar Irradiation for Perovskite Solar Cells Nature Communications장파장 빛을 흡수하는 화합물 반도체 결정 위에 단파장의 빛을 흡수하는 페로브스카이트 박막을 적층, 9보다 다양한 파장의 빛을 활용하도록 함으로써 전기에너지 변환효율을 높이는 방식이다.*탠덤 태양전지는 자동차, 4537 무인비행기, 웨어러블 기기는 물론 사물인터넷(2018IoT)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

* Advanced Heterojunction Structures Management of Polymer Transition Dipoles in Organic Hole-Transporting Materials under Solar Irradiation for Perovskite Solar Cells Generating High Photocurrent with Internal Quantum Efficiency Approaching 100% Advanced Energy MaterialsNature Communications, 39, 1135 4537 (20132018)

* Optimization Direct Synthesis of Polymer Solar Cells with Bulk Heterojunction Thickness-Tunable MoS2 Quantum Dot Thin Layers Hundreds of Nanometers Thick: Modifying the Morphology Optical, Structural and Electrical Properties and Cathode Interface Energy & Environmental ScienceTheir Application to Hydrogen Evolution Nano Energy, 635, 2203 101 (20132017)

* Photonic Color Filters Incorporated with Organic Advanced Heterojunction Structures of Polymer Solar Cells for Generating High Photocurrent with Internal Quantum Efficiency Approaching 100% Advanced Energy Harvesting ACS NanoMaterials, 53, 7055 1135 (20112013)

* Continuous Patterning Optimization of Nanogratings by Nanochannel-Guided Lithography on Liquid Resists Advanced MaterialsPolymer Solar Cells with Bulk Heterojunction Layers Hundreds of Nanometers Thick: Modifying the Morphology and Cathode Interface Energy & Environmental Science, 236, 4444 2203 (20112013)

* Facile Route to Polymer Photonic Color Filters Incorporated with Organic Solar Cells with Optimum Morphology Readily Applicable to Roll-to-Roll Process without Sacrificing High Device Performances Advanced Materialsfor Energy Harvesting ACS Nano, 225, E247 7055 (20102011)

* Efficiency Enhancement Continuous Patterning of Organic Solar Cells using Transparent Plasmonic Ag Nanowire Electrodes Advanced Nanogratings by Nanochannel-Guided Lithography on Liquid Resists Advanced Materials, 2223, 4378 4444 (20102011)

* Large Area Facile Route to Polymer Solar Cells with Optimum Morphology Readily Applicable to Roll-to-Roll Process without Sacrificing High Density Sub-20 nm SiO2 Nanostructures Fabricated by Block Copolymer Template for Nanoimprint Lithography ACS NanoDevice Performances Advanced Materials, 322, 2601 E247 (20092010)

*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)

*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

* Horace H. Macro/Rackham International Student Block Grant Fellowship, The University of Michigan (2007-2008)*Korea Government Overseas Study Fellowship, Korea Government (2007-2009) : awarded to outstanding international graduate studentsone of 30 awardees, nationally

* Macro/Rackham Block Grant FellowshipOutstanding Achievement Award: 2nd (2 times), The University of Michigan CTO Division, LG Electronics (2007-20082004, 2005)* Korea Government Overseas Study FellowshipDistinguished honor scholarship, Korea Government Seoul National University (2007B.S.: 1998-20092001, M.S.: 2002) : one of 30 awardees, nationally

*<뉴스H> 2020.01.31 박희준 교수, 화합물 반도체에 페로브스카이트 결합 태양전지 효율 높이다 http://www.newshyu.com/news/articleView.html?idxno=언론 활동751043*<뉴스H> 2023.04.07 [http://www.newshyu.com/news/articleView.html?idxno=1009479 인공지능 반도체 핵심 소자의 한계를 극복하다]