한국기술교육대학교 에너지신소재공학전공

연구실 소개

4차 산업혁명(4th Industrial Revolution, 4IR)은 인공지능, 빅데이터 등 디지털 기술로 촉발되는 초연결 기반의 지능화 혁명으로 정의되며, 우리 일상에 적용되기 시작하면서 스마트한 도구들이 끊임없이 개발되고 있다. 본 연구실에서는 Glancing angle deposition, Proximity-field nanopatterning, Anodizing method, Soft/Hard template method, Laser-assisted fabrication 등 다양한 공정 및 공정조합을 통하여 4차 산업의 핵심 분야인 센서, 반도체, 에너지 저장 장치, 디스플레이 등에 활용할 수 있는 고성능의 스마트 나노소재와 기능성 나노소재를 설계, 제어, 제작하는 연구를 진행하고 있습니다.

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  • 지도교수 심영석 교수
  • E-mail ysshim@koreatech.ac.kr

주요 연구분야

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  나노구조체

  Highly ordered 1D, 2D, 3D nanostructures
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  나노소재공정

  GLAD, PnP, Anodizing method, Soft/Hard template method, Laser-assisted fabrication
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  화학센서

  Gas sensor, Gas Chromatography, Water Quality Sensor
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  스마트 필름

  Mechanochromic device, Gasochromic device
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  신재생 에너지

  Water splitting, Solar cell,
  Triboelectric nanogenerator

주요 연구실적

• 3D ZnO/ZIF‐8 Hierarchical Nanostructure for Sensitive and Selective NO₂ Sensing at Room Temperature

  • Small Structures, 2300503, 2023.
• Facile Formation of Metal–Oxide Nanocraters by LaserIrradiation for Highly Enhanced Detection of Volatile Organic Compounds

  • Small Structures, 2300068, 2023.
• Proximity-field nanopatterning for high-performance chemical and mechanical sensor applications based on 3D nanostructures

  • Applied Physics Reviews, 9, 1, 2022.
• Rationally designed TiO₂ nanostructures of continuous pore network for fast‐responding and highly sensitive acetone sensor

  • Small Methods, 5, 12, 2021.
• High-performance gas sensor array for indoor air quality monitoring: the role of Au nanoparticles on WO₃, SnO₂, and NiO-based gas sensors

  • Journal of Materials Chemistry A, 9, 2021.
• Optically Activated 3D Thin-Shell TiO₂ for Super-Sensitive Chemoresistive Responses: Toward Visible Light Activation’

  • Advanced Science, 2001883, 2020.
• High-Contrast Optical Modulation from Strain-Induced Nanogaps at 3D Heterogeneous Interfaces

  • Advanced Science, 1903708, 2020.
• Ionic‐Activated Chemiresistive Gas Sensors for Room‐Temperature Operation

  • Small, 1902065, 2019.
• Synthesis of Numerous Edge Sites in MoS₂ via SiO₂ Nanorods Platform for Highly Sensitive Gas Sensor

  • ACS applied materials & interfaces, 10, 37, 2018.
• Nanogap-controlled Pd coating for hydrogen sensitive switches and hydrogen sensors

  • Sensors and Actuators B: Chemical, 255, 2018.