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Minwook Kim,Mingyu Kim,Kwangjun Kim,Yongju Lee,Minyong Park,Byeol Han,Hyunchan Noh,Sangwon Hwang,Sang Hoon Lee,Jong G. Ok 한국정밀공학회 2022 International Journal of Precision Engineering and Vol.9 No.5
We develop a solution-processable, Ag-sandwiched carbon-nanotube-coated, durable (SAND) architecture that enables power-efficient and highly consistent cyclic heating up to 400 °C at 6 V with neither structural degradation nor substrate breakage. The Ag/CNT/Ag-stacked SAND structure, comprising an airbrushed carbon nanotube (CNT) network layer sandwiched by the Ag layers reduced with ionic Ag ink coatings, can be created by a facile and scalable all-solution-processable fabrication protocol without resorting to vacuum-assisted nanofabrication. Through a systematic comparison with Ag-only and CNT/Ag- or Ag/CNT-bilayered structures, we show that the SAND architecture can improve the joule-heating efficiency and uniformity, and more importantly, the anti-breaking durability to overcome the thermal expansion discrepancy against the underlying substrate. This is analytically interpreted through a thermal stress-induced substrate breaking mechanism, where the increasing difference in the thermal expansion between the substrate and coated layers upon heating can be effectively suppressed within the SAND architecture. Readily applicable to more scalable, diverse substrates ranging from brittle glass to large-area polymer films, the SAND architecture can be utilized in the flexible and reliable anti-failure heating devices required in such applications as machine and vehicle components, sensor systems, and safety and warm-up gears.
금속이온 잉크와 탄소나노튜브 용액의 에어브러싱 적층 기반 고성능 고내구성 박막형 히팅 모듈의 수월 제작 기술
김민욱(Minwook Kim),김민규(Mingyu Kim),김광준(Kwangjun Kim),박재원(Jaewon Park),이민영(Minyoung Lee),최현식(Hyunsik Choi),박종갑(Jonggab Park),노현찬(Hyeonchan Noh),윤부현(Boohyeon Youn),정은창(Eunchang Jeong),최광진(Kwangjin Choi),허 대한전기학회 2020 대한전기학회 학술대회 논문집 Vol.2020 No.7
Kim, Dae-Yoon,Park, Minwook,Lee, Sang-A,Kim, Soeun,Hsu, Chih-Hao,Kim, Namil,Kuo, Shiao-Wei,Yoon, Tae-Ho,Jeong, Kwang-Un The Royal Society of Chemistry 2015 SOFT MATTER Vol.11 No.1
<P>Unconventional star-shaped liquid crystals (abbreviated as SiLCs) were successfully synthesized by chemically connecting four cyanobiphenyl anisotropic mesogens to the periphery of a super-hydrophobic and ultra-flexible cyclic tetramethyltetrasiloxane ring with flexible hexyl chains. Based on the combined experimental techniques of differential scanning calorimetry (DSC), cross-polarized optical microscopy (POM), solid-state carbon-13 (<SUP>13</SUP>C) nuclear magnetic resonance (NMR) spectroscopy and one-dimensional (1D) wide-angle X-ray diffraction (WAXD), it was found that the SiLC molecule exhibited the monotropic phase transition from a LC phase to a crystalline phase. The crystalline phase was only detected during slow heating processes above its glass transition temperature, while a LC phase was formed both during cooling and during heating processes. The hierarchical superstructures were identified from the structure-sensitive 2D WAXD of the macroscopically oriented SiLC film and confirmed by selected area electron diffraction (SAED) of the SiLC single crystals. The molecular packing symmetry in the monoclinic unit cell was further investigated by computer simulations on the real and reciprocal spaces. Macroscopically oriented SiLC hierarchical superstructures on the different length scales may provide the targeted physical properties, which can allow us to apply SiLC molecules in the fields of electro-optical devices and nonlinear optics.</P> <P>Graphic Abstract</P><P>A star-shaped molecule synthesized by connecting four cyanobiphenyl mesogens to the periphery of a super-hydrophobic and ultra-flexible cyclic siloxane ring with hexyl chains formed hierarchical layered superstructures. <IMG SRC='http://pubs.rsc.org/services/images/RSCpubs.ePlatform.Service.FreeContent.ImageService.svc/ImageService/image/GA?id=c4sm02239d'> </P>
Proposal and Analysis of Wavelength-Switchable Optical Fiber Filter Based on a Solc Type
Minwook Kim,정재훈 한국광학회 2008 Current Optics and Photonics Vol.12 No.3
This paper proposes a new polarization-independent Sagnac birefringence loop structure-based multiwavelength-periodic filter and presents measurements and analysis of its spectrum. The filter can be used in several schemes by adjusting the orientation angles of two quarter waveplates and the operating characteristics in the reflection type are analyzed including dispersion and polarization mode dispersion at each principal axis. This filter has polarization-independent spectra but a polarization-dependent dispersion, consequently polarization mode dispersion whose values changes with operating schemes.