▶ 학력

- 성균관대학교 공학박사 (졸업 ‘22.02)

  (학위논문주제: 미세구조기반 유연 생체 전자소자 및 로봇 전자피부 개발)

- 성균관대학교 공학사 (졸업‘16.02)

▶ 경력

- 2022.03~2023.02: 한국표준과학연구원 역학표준그룹, 방문연구원

- 2022.03~2023.02: 성균관대학교 박사후연구원

▶ 연구 업적

https://scholar.google.com/citations?user=4p0LcBcAAAAJ&hl=ko&oi=ao

[대표저널]

*. Y. S. Lee†, D. W. Kim†, J. H. Song, J. Kim, S. H. Jeon, G. W. Hwang, and C. Pang*, A biodegradable bioinspired oil-coated adhesive film for enhanced wet adhesion, Surfaces and Interfaces, 2022, 35, 102415. († is equally contributed)

*. G. W. Hwang†, H. J. Lee†, D. W. Kim,..... C. Pang *, Bioinspired soft microdenticle suction actuators for highly adaptive switchable wet adhesion, Advanced Science, 2022, 9, 2202978: 로봇 유연 그리퍼 연구 

*. D. W. Kim, Development of Bioinspired Robotic Gripping Technology for Gripping Rough & Wet Surfaces based on Tactile Sensing, Journal of Korea Robotics Society, 2022, 17, 3, 282-287: 유연그리퍼 로봇의 센서 융합 연구

*. D.-S. Choi, J. W. Bae, S.-H. Lee, J. H. Song, D. W. Kim, S. Choi, C. Pang*, and S.-Y. Kim*, Emotion-interactive empathetic transparent skin cushion with tailored frequency dependent hydrogel–plasticized nonionic polyvinyl chloride interconnections, Chemical Engineering Journal, 2022, 442, 136142. 감정표현 로봇용 인공피부 연구

*. D. W. Kim†, J. Park†, G.-T. Hwang, S. B. Cho, S. H. Jeon, H. W. Kim, C. K. Jeong*, and S. Chun*, C. Pang*, “Conformably Skin-adherent Piezoelectric Patches enables Physical Energy Amplification”, ACS Energy Letters, 2022, 7, 1820-1827. († is equally contributed): 신축성 바이오 전자소자 연구

*. D. W. Kim†, K.-I. Song†, D. Seong, Y. S. Lee, S. Baik, J. H. Song, H. J. Lee, D. Son*, and C. Pang*, "Universal sustainable chemical residue-free in situ adhesive bioelectronics", Advanced Materials, 34, 202105338 (2022). († is equally contributed)

- 논문 Back Cover 선정, 신축성 바이오 전자소자 연구

- 매일경제, 전자신문, 파이낸셜뉴스, 메디컬투데이, 뉴시스 등 다수 매스컴에 소개됨.

*. H.J.Lee,† S. Baik,† G. W. Hwang† J. H. Song, J.H., D.W.Kim, .... C. Pang,* An Electronically Perceptive Bioinspired Soft Wet-Adhesion Actuator with Carbon Nanotube-based Strain Sensors, ACS Nano, 2021, 15(9), 14137-14148. († is contributed equally) 유연그리퍼 문어로봇의 센서 융합 연구

- 교수신문, 에듀동아 등 다수 매스컴에 소개됨.

*. J. Lee†, D. W. Kim†, S. Chun, J. H. Song, E. S. Yoo, J. K. Kim*, C. Pang*, "Intrinsically Strain‐nsensitive, Hyperelastic Temperature‐ensing Fiber with Compressed Micro‐rinkles for Integrated Textronics", Advanced Materials Technologies 5(5), 2000073 (2020) († is equally contributed): 신축성 바이오 전자소자 연구 

*. S. Choi†, K. Yoon†, S. Lee, H. J. Lee, J. Lee, D. W. Kim, M.‐. Kim, T. Lee*, C. Pang*, "Conductive hierarchical hairy fibers for highly sensitive, stretchable, and water‐esistant multimodal gesture‐istinguishable sensor, VR applications", Advanced Functional Materials 29(50), 1905808 (2019),논문 Back Cover 선정: 신축성 바이오 전자소자 연구

*. S. Chun†, D. W. Kim†, Jiwon Kim, C. Pang*, "A transparent, glue-free, skin-attachable graphene pressure sensor with micropillars for skin-elasticity measurement" Nanotechnology 30(33), 335501 (2019) († is equally contributed): 신축성 바이오 전자소자 연구

*. J. Kim†, D. W. Kim†, S. Baik, G. W. Hwang, T.-I. Kim, C. Pang*, "Snail-inspired dry adhesive with embedded microstructures for enhancement of energy dissipation" Advanced Materials Technologies 4(11), 1900316 (2019) († is equally contributed) 

*. D. W. Kim†, S. Baik†, H. Min, S. Chun, H. J. Lee, K. H. Kim, J. Y. Lee, and C. Pang*, "Highly permeable skin patch with conductive hierarchical architectures inspired by amphibians and octopi for omnidirectionally enhanced wet adhesion" Advanced Functional Materials 29(13).1807614 (2019),논문 Front Cover 선정: 신축성 바이오 전자소자 연구

-  Advanced Science News 등 해외 매스컴에 소개됨.

*. S. Chun†, D. W. Kim†, S. Baik, H. J. Lee, J. H. Lee, S. H. Bhang and C. Pang*, "Conductive and stretchable adhesive electronics with miniaturized octopus-like suckers against dry/wet skin for biosignal monitoring", Advanced Functional Materials 28, 52 (2018). († is equally contributed) († is equally contributed): Back Cover 선정, 신축성 바이오 전자소자 연구, 

*. S. Baik, D. W. Kim, Y. Park, T.-J. Lee, S. H. Bhang, C. Pang＊, "A wet-tolerant adhesive patch inspired by protuberances in suction of octopi" Nature 546, 396-400 (2017)

- 국가연구개발 우수성과 100선 선정: 신축성 바이오 전자소자 요소 기술

- MBC, KBS, Agence France-News, Nature-Asia 등 국내 및 해외 매스컴에 소개됨.

[국제등록특허(하기 2건)]

*. C. Pang, D. W. Kim, S. Baik, "adhesive patch" US patent, 16/663,772 (2021) 등록.

*. 3.C. Pang, G.-R. Yi, J. S. Kim, D. W. Kim, S. Y. Jang, "FIBER COPOSITE AND PREPARING METHOD OF THE SAME" US patent, 16/555,809 (2022) 등록.

[국내등록특허(하기 7건)]

*. C. Pang, J. Lee, D. W. Kim, Fiber-type temperature sensor with compressed micro-wrinkels and manufacturing method thereof, Korea patent, 1023773070000 (2022) 등록.

*. C. Pang, D. W. Kim, S. Baik, Adhesive patch, Korea patent, 1022370370000 (2021) 등록.

*. C. Pang, G. Lee, J. Kim, D. W. Kim, S. Jang, FIBER CPOSITE AND PREPARING METHOD OF HE SAME, Korea patent, 1022083770000 (2021) 등록.

*. C. Pang, S. Baik, D. W. Kim, J. Lee, Dry adhesive patches having a micro-absorbent hybrid structure that can collect fluids and attach them to cleanly and the method thereof, Korea patent, 1021873490000 (2020) 등록.

*. C. Pang, S. Chun, D. W. Kim, Dry adhesive skin patch Korea patent, 1021873530000 (2020) 등록.

*. T. Lee, C. Pang, J. Lee, S. Shin, S. Kang, Y. Park, D. W. Kim, S. Choi, Fiber-based sensors and method of manufacturing the same, Korea patent, 1020260110000 (2019) 등록.

*. T. Lee, C. Pang, J. Seo, C. Pang, D. W. Kim, S. Baik, Gas sensing nano actuator and method for manufacturing of the same, Korea patent, 1017713620000 (2017) 등록.

[수상내역]

*. 2022 미국재료학회(MRS) 생체전자소자 분야 최우수 포스터 선정