• Title/Summary/Keyword: nano electro mechanical device

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Development of sacrificial layer wet etch process of TiNi for nano-electro-mechanical device application

  • Park, Byung Kyu;Choi, Woo Young;Cho, Eou Sik;Cho, Il Hwan
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.13 no.4
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    • pp.410-414
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    • 2013
  • We report the wet etching of titanium nickel (TiNi) films for the production of nano-electro-mechanical (NEM) device. $SiO_2$ and $Si_3N_4$ have been selected as sacrificial layers of TiNi metal and etched with polyethylene glycol and hydrofluoric acid (HF) mixed solution. Volume percentage of HF are varied from 10% to 35% and the etch rate of the $SiO_2$, $Si_3N_4$ and TiNi are reported here. Within the various experiment results, 15% HF mixed polyethylene glycol solution show highest etch ratio between sacrificial layer and TiNi metal. Especially $Si_3N_4$ films shows high etch ratio with TiNi films. Wet etching results are measured with SEM inspection. Therefore, this experiment provides a novel method for TiNi in the nano-electro-mechanical device.

Facile Chemical Growth of Cu(OH)2 Thin Film Electrodes for High Performance Supercapacitors (간단한 화학적 합성을 통한 고성능 슈퍼캐패시터용 수산화 구리 전극)

  • Patil, U.M.;Nam, Min Sik;Shinde, N.M.;Jun, Seong Chan
    • KEPCO Journal on Electric Power and Energy
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    • v.1 no.1
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    • pp.175-180
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    • 2015
  • A facile soft chemical synthesis route is used to grow nano-buds of copper hydroxide [$Cu(OH)_2$] thin films on stainless steel substrate[SS]. Besides different chemical methods for synthesis of $Cu(OH)_2$ nanostructure, the chemical bath deposition (CBD) is attractive for its simplicity and environment friendly condition. The structural, morphological, and electro-chemical properties of $Cu(OH)_2$ thin films are studied by means of X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), field emission scanning electron microscopy (FESEM), cyclic voltammetry (CV) and galvanostatic charge-discharge (GCD) measurement techniques. The results showed that, facile chemical synthesis route allows to form the polycrystalline, granular nano-buds of $Cu(OH)_2$ thin films. The electrochemical properties of $Cu(OH)_2$ thin films are studied in an aqueous 1 M KOH electrolyte using cyclic voltammetry. The sample exhibited supercapacitive behavior with $340Fg^{-1}$ specific capacitance. Moreover, electrochemical capacitive measurements of $Cu(OH)_2/SS$ electrode exhibit a high specific energy and power density about ${\sim}83Wh\;kg^{-1}$ and ${\sim}3.1kW\;kg^{-1}$, respectively, at $1mA\;cm^{-2}$ current density. The superior electrochemical properties of copper hydroxide ($Cu(OH)_2/SS$) electrode with nano-buds like structure mutually improves pseudocapacitive performance. This work evokes scalable chemical synthesis with the enhanced supercapacitive performance of $Cu(OH)_2/SS$ electrode in energy storage devices.

Pull-In Voltage Modeling of Graphene Formed Nickel Nano Electro Mechanical Systems (NEMS)

  • Lim, Songnam;Lee, Jong-Ho;Choi, Woo Young;Cho, Il Hwan
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.15 no.6
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    • pp.647-652
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    • 2015
  • Pull-in voltage model of nano-electro-mechanical system with graphene is investigated for the device optimization. In the pull in voltage model, thickness of graphene layer is assumed to be uniform in vertical and lateral direction. Finite element analysis simulation has verified the feasibility of the suggested model. From the suggested model, pull-in voltage change with graphene thickness and cantilever length can be estimated. Maximum induced stress and graphene thickness have a reciprocal relationship.

Hydrothermally Synthesis Nanostructure ZnO Thin Film for Photocatalysis Application (수열합성법으로 합성된 산화아연 나노 구조 박막의 광촉매적 응용)

  • Shinde, N.M.;Nam, Min Sik;Patil, U.M.;Jun, Seong Chan
    • KEPCO Journal on Electric Power and Energy
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    • v.2 no.1
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    • pp.97-101
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    • 2016
  • ZnO has nanostructured material because of unique properties suitable for various applications. Amongst all chemical and physics methods of synthesis of ZnO nanostructure, the hydrothermal method is attractive for its simplicity and environment friendly condition. Nanostructure ZnO thin films have been successfully synthesized on fluorine doped tin oxide (FTO) substrate using hydrothermal method. A possible growth mechanism of the various nanostructures ZnO is discussed in schematics. The prepared materials were characterized by standard analytical techniques, i.e., X-ray diffraction (XRD) and Field-emission scanning electron microscopy (SEM). The XRD study showed that the obtained ZnO nanostructure thin films are in crystalline nature with hexagonal wurtzite phase. The SEM image shows substrate surface covered with nanostructure ZnO nanrod. The UV-vis absorption spectrum of the synthesized nanostructure ZnO shows a strong excitonic absorption band at 365 nm which indicate formation nanostructure ZnO thin film. Photoluminescence spectra illustrated two emission peaks, with the first one at 424 nm due to the band edge emission of ZnO and the second broad peak centered around 500 nm possibly due to oxygen vacancies in nanostructure ZnO. The Raman measurements peaks observed at $325cm^{-1}$, $418cm^{-1}$, $518cm^{-1}$ and $584cm^{-1}$ indicated that nanostrusture ZnO thin film is high crystalline quality. We trust that nanostructure ZnO material can be effectively will be used as a highly active and stable phtocatalysis application.

Analysis and Optimization of a Depletion-Mode NEMFET Using a Double-Gate MOSFET (Double-Gate MOSFET을 이용한 공핍형 NEMFET의 특성 분석 및 최적화)

  • Kim, Ji-Hyun;Jeong, Na-Rae;Kim, Yu-Jin;Shin, Hyung-Soon
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.46 no.12
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    • pp.10-17
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    • 2009
  • Nano-Electro-Mechanical MOSFET (NEMFET) using Double-Gate MOSFET (DGMOS) structure can efficiently control the short channel effect. Espatially, subthreshold current of depletion-mode Double-Gate NEMFET (Dep-DGNEMFET) decreases in the off-state due to the thin equivalent-oxide thickness. Analytical $t_gap$ vs. $V_g$ equation for Dep-DGNEMFET is derived and characteristics for different device structures are analyzed. Dep-DGNEMFET structure is optimized to satisfy ITRS criteria.

High Resolution Patternning for Graphene Nanoribbons (GNRs) Using Electro-hydrodynamic Lithography

  • Lee, Su-Ok;Kim, Ha-Nah;Lee, Jae-Jong;Kang, Dae-Joon
    • Proceedings of the Korean Vacuum Society Conference
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    • 2012.02a
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    • pp.198-198
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    • 2012
  • Graphene has been the subject of intense study in recent years owing to its good optoelectronic properties, possibility for stretchable electronics, and so on. Especially, many research groups have studied about graphene nanostructures with various sizes and shapes. Graphene needs to be fabricated into useful devices with controllable electrical properties for its successful device applications. However, this been far from satisfaction owing to a lack of reliable pattern transfer techniques. Photolithography, nanowire etching, and electron beam lithography methods are commonly used for construction of graphene patterns, but those techniques have limitations for getting controllable GNRs. We have developed a novel nanoscale pattern transfer technique based on an electro-hydrodynamic lithography providing highly scalable versatile pattern transfer technique viable for industrial applications. This technique was exploited to fabricate nanoscale patterned graphene structures in a predetermined shape on a substrate. FE-SEM, AFM, and Raman microscopy were used to characterize the patterned graphene structures. This technique may present a very reliable high resolution pattern transfer technique suitable for graphene device applications and can be extended to other inorganic materials.

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DNA Selective Immobilization on a Microcantilever with Nano-Interdigitated Electrodes (Nano-IDEs) Using Cyclic Voltammetry (맞물린 나노전극을 가지는 마이크로 캔틸레버의 제작 및 순환전압전류방법을 이용한 DNA의 선택적인 고정화)

  • Lee, Jung-A;Lee, Kwang-Cheol
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.32 no.6
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    • pp.459-464
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    • 2008
  • We present a novel microcantilever device with nano-interdigitated electrodes (nano-IDEs) and DNA selective immobilization on the nano-IDEs for biosensing applications. Using the nano-IDEs and cyclic voltammetric methods, we have achieved selective immobilization of DNA with submicrometer spatial resolution on a freestanding microcantilever. $70{\sim}500\;nm$-wide gold (Au) nano-IDEs are fabricated on a low-stress SiNx microcantilever with dimensions of $100{\sim}600\;{\mu}m$ in length, and $15{\sim}60\;{\mu}m$ in width, with a $0.5\;{\mu}m$ thickness using electron beam lithography and bulk micromachining. Streptavidin is selectively deposited on one side of the nano-IDEs using cyclic voltammetry at a scan rate of 0.1 V/s with a range of $-0.2{\sim}0.7\;V$ during $1{\sim}5$ cycles. The selective deposition of dsDNA is confirmed by fluorescence microscopy after labeling with YOYO-1 dye.

A study of nano-scale electrical discharge characteristics for automotive sensor applications

  • Choi, Hae-Woon;Han, Man-Bae
    • Proceedings of the KWS Conference
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    • 2009.11a
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    • pp.235-238
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    • 2009
  • To study the relationship between spark ignition and the gap in the nano-scale region, the electric potential was applied to between a Pt-Ir tip and a gold substrate. The tip was sharpened by electro-chemical etching process in the solution of $CaCl_2;H_2O$ and acetone. The radius of tip was measured to be around 200nm and attached to the scanning probe microscope to control the gap between the tip and the substrate. The electric potential of 10V to 80V was applied to initialize the spark. The gaps and the current profile were measured to analyze the characteristics of spark ignition. A spark sustaining time was measured to be between 50ns and 200ns depending on the applied electric potential and the gap between the electrodes. The continuous electric discharge was successfully sustained up to 1 second of spark or arc time. The developed process can be applicable to the micro-scale fabrication of automotive sensors as a similar concept of GTAW.

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Fabrication and Characterization of 32x32 Silicon Cantilever Array using MEMS Process (MEMS 공정을 이용한 32x32 실리콘 캔틸레버 어레이 제작 및 특성 평가)

  • Kim Young-Sik;Na Kee-Yeol;Shin Yoon-Soo;Park Keun-Hyung;Kim Yeong-Seuk
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.19 no.10
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    • pp.894-900
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    • 2006
  • This paper reports the fabrication and characterization of $32{\times}32$ thermal cantilever array for nano-scaled memory device applications. The $32{\times}32$ thermal cantilever array with integrated tip heater has been fabricated with micro-electro-mechanical systems(MEMS) technology on silicon on insulator(SOI) wafer using 9 photo masking steps. All of single-level cantilevers(1,024 bits) have a p-n junction diode in order to eliminate any electrical cross-talk between adjacent cantilevers. Nonlinear electrical characteristic of fabricated thermal cantilever shows its own thermal heating mechanism. In addition, n-channel high-voltage MOSFET device is integrated on a wafer for embedding driver circuitry.

Enhancement of outcoupling efficiency of OLEDs by using nanoimprinted polymer nanostructures

  • Jeon, So-Hee;Kang, Jae-Wook;Park, Hyung-Dol;Shim, Jong-Youp;Jeong, Jun-Ho;Kim, Se-Heon;Youn, Jae-R.;Kim, Jang-Joo
    • 한국정보디스플레이학회:학술대회논문집
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    • 2008.10a
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    • pp.521-522
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    • 2008
  • An etch-less simple method was developed to fabricate two-dimensional nanostructures on glass substrate directly by using UV curable polymer resin and UV nanoimprint lithography in order to improve output coupling efficiency of OLEDs. OLEDs integrated on nanoimprinted substrates enhanced electro-luminance intensity by up to 50% compared with the conventional device.

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