교수진
강희민 (Heemin Kang)
- 직위
- 부교수
- 전화번호
- 02-3290-3270
- 연구분야
- 나노화학소재, 원격제어형 나노소재, 표면나노공학, 나노바이오소재, 동적바이오소재, 재생공학, 면역공학, 암치료
- 사무실
- 창의관 705B
- 홈페이지
- http://www.dynamicnano.org
- 이메일
- heeminkang@korea.ac.kr
학력
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2016.03 University of California, San Diego 재료공학 (공학박사) 2008.04 Stanford University 재료공학 (공학석사) 2005.02 고려대학교 공과대학 신소재공학부 (공학사)
경력 및 수상
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◆ 경력 2023.03 - 현재 고려대학교 신소재공학부, 부교수 2019.03 - 2023. 02 고려대학교 신소재공학부, 조교수 2022 - 현재 고려대학교 의과대학 겸임 교수 2016 - 2019 The Chinese University of Hong Kong, Postdoctoral Fellow 2011 - 2016 University of California, San Diego, USA, 연구원 2008 - 2010 Applied Materials, Inc., USA, R&D Process Engineer 2005 - 2008 Stanford University, USA, 연구원 ◆ 수상 2022 소재혁신 신진연구자, 대한금속·재료학회 2022 신진학술상, 한국고분자학회 2022 석탑기술상, 고려대학교 2021 화이바이오메드 신진연구자상, 한국생체재료학회 2019 석탑강의상, 고려대학교 2016 - 2019 The University’s Postdoctoral Fellowship, The Chinese University of Hong Kong 2015 The Acta Student Award, The editor-in-chief in Acta Biomaterialia, USA
연구논문
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*교신저자 1. An J, Hong H et al; Kang H*, Kim J*, “Mechanical stimuli-driven cancer therapeutics” Chem. Soc. Rev. (2022) 51 2. Kim Y et al; Kang H*, “Submolecular ligand size and spacing on cell adhesion” Adv. Mater. (Cover article) (2022) 34, 2110340 3. Hong H et al; Kang H*, “Dynamic Ligand screening by Magnetic Nanoassembly Modulates Stem Cell Differentiation” Adv. Mater. (2022) 34, 2105460 4. Kim Y et al; Kang H*, Adv. Mater. (Front cover article) (2022) 34 5. Bae G et al; Kang H*, “Receptor-Level Proximity and Fastening of Ligands Modulates Stem Cell Differentiation” Adv. Funct. Mater. (Front cover article) (2022) 32, 2200828 6. Son S et al; Kang H*, Kim J*, “Cancer therapeutics based on diverse energy sources” Chem. Soc. Rev. (2022) 51, 8201-8215 7. Thangam R et al; Kang H*, “Ligand Coupling and Decoupling Modulates Stem Cell Fate” Adv. Funct. Mater. (2022) 32, 2206673 8. Kim Y et al; Kang H*, “Manipulating Nanoparticle Aggregates Regulates Receptor-Ligand Binding in Macrophages” J. Am. Chem. Soc. (Cover article) (2022) 144, 13, 5769–5783 9. Kim S et al; Kang H*, “Modulation of macrophages by in situ ligand bridging” Adv. Funct. Mater. (2022) 33, 2215166 10. Min S et al; Kang H*, “Remote Control of Time-Regulated Stretching of Ligand-Presenting Nanocoils In Situ Regulates the Cyclic Adhesion and Differentiation of Stem Cells” Adv. Mater. (Cover article) (2021) 33, 2008353 11. Bae G et al; Kang H*, “Immunoregulation of macrophages by controlling winding and unwinding of nanohelical ligands” Adv. Funct. Mater. (Front cover article) (2021) 31, 2103409 12. Thangam R et al; Kang H*, “Remote Switching of Elastic Movement of Decorated Ligand Nanostructures Controls the Adhesion-Regulated Polarization of Host Macrophages” Adv. Funct. Mater. (Front cover article) (2021) 31, 2008698 13. Yang L et al; Kang H*, Lee K*, “Harnessing the Therapeutic Potential of Extracellular Vesicles for Biomedical Applications using Multifunctional Magnetic Nanomaterials” Small (2021) 17, 2104783 14. Lee S et al; Kang H*, “Magnetic Control and Real-Time Monitoring of Stem Cell Differentiation by the Ligand Nanoassembly” Small (2021) 17, 2102892 15. Min S et al; Kang H* “Independent Tuning of Nano‐Ligand Frequency and Sequences Regulates the Adhesion and Differentiation of Stem Cells” Adv. Mater. (Cover article) (2020) 32, 2004300 16. Choi H et al; Kang H* “Remote manipulation of slidable nano-ligand switch regulates the adhesion and regenerative polarization of host macrophages” Adv. Funct. Mater (2020) 30, 2001446 17. Khatua C et al; Kang H* “In situ magnetic control of macroscale nanoligand density regulates the adhesion and differentiation of stem cells” Nano Lett. (2020) 20, 4188-96 18. Min S et al; Kang H* “Large and Externally Positioned Ligand-Coated Nanopatches Facilitate the Adhesion-Dependent Regenerative Polarization of Host Macrophages” Nano Lett. (2020) 20, 7272-80