• Title/Summary/Keyword: single crystalline

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Comparative study of photoluminescences for Zn-polar and O-polar faces of single-crystalline ZnO bulks

  • O, Dong-Cheol;Kim, Dong-Jin;Bae, Chang-Hwan;Gu, Gyeong-Wan;Park, Seung-Hwan
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2010.06a
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    • pp.39-39
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    • 2010
  • The authors have an extensive study of photoluminescences for Zn-polar and O-polar faces of single-crystalline ZnO bulks. In the photoluminescence (PL) spectra at 10 K, Zn-polar and O-polar faces show a common emission feature: neutral donor-bound excitons and their longitudinal-optical (LO) phonon replicas are strong, and free excitons are very weak. However, in the PL spectra at room temperature (RT), Zn-polar and O-polar faces show extremely different emission characteristics: the emission intensity of Zn-polar face is 30 times larger than that of O-polar face, and the band edge of Zn-polar face is 33 meV red-shifted from that of O-polar face. The temperature dependence of photoluminescence indicates that the PL spectra at RT are closely associated with free excitons and their phonon-assisted annihilation processes. As a result, it is found that the RT PL spectra of Zn-polar face is dominated by the first-order LO phonon replica of A free excitons, while that of O-polar face is determined by A free excitons. This is ascribed that Zn-polar face has larger exciton-phonon coupling strength than O-polar face.

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Fabrication and Characterization of Single Crystalline Silicon (SCS) RF MEMS Switch (단결정 실리콘 RF MEMS 스위치의 제작 및 특성 평가)

  • Kim Jong-Man;Lee Sang-Hyo;Baek Chang-Wook;Kwon Young-Woo;Kim Yong-Kweon
    • 한국정보통신설비학회:학술대회논문집
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    • 2006.08a
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    • pp.67-70
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    • 2006
  • This paper deals with a single crystalline silicon (SCS) RF MEMS switch for telecommunication system applications. The proposed SCS switch was fabricated using a silicon-on-glass (SiOG) process and its performances in terms of RF responses, switching time, lifetime were characterized. The proposed SCS switch consists of movable plates, mechanical spring structures, which are composed of robust SCS, resulting in mechanically good stability, The measured actuation voltage was 30 V, and with this applied voltage, the insertion loss and isolation characteristics were measured to be 0.05 and 44.6 dB at 2 GHz respectively. The measured switch ON and OFF time were 13 and $9{\mu}s$, respectively. The lifetime of the fabricated switch was tested. Even after over 1 billion cycles repeated ON/OFF actuations, the switch maintained its own characteristics.

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Single Crystalline InxGa1-xAs Nanowires on Si (111) via VLS Method (VLS 방법을 이용한 단결정 InxGa1-xAs 나노와이어 성장과 조성비 변화에 대한 특성측정)

  • Shin, Hyun Wook;Shin, Jae Cheol;Choe, Jeong-Woo
    • Journal of the Korean Vacuum Society
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    • v.22 no.2
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    • pp.105-110
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    • 2013
  • Single crystalline $In_xGa_{1-x}As$ nanowires are grown on Si (111) substrate via Vapor-Liquid-Solid growth mode using metal-organic chemical vapor deposition. The ternary nanowires have been grown with various growth conditions and examined by electron microscopy. The alloy compositions of the nanowires has been investigated using Energy-dispersive X-ray spectroscopy. We have found that the composition gradient of the nanowire becomes larger with growth temperature and V/III ratio.

Single Crystalline ${\beta}$-Na0.33V2O5 Nanowires Based Supercapacitor

  • Trang, Nguyen Thi Hong;Shakir, Imran;Kang, Dae-Joon
    • Proceedings of the Korean Vacuum Society Conference
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    • 2012.02a
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    • pp.587-587
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    • 2012
  • Supercapacitors, which can deliver significant energy with high power density, have attracted a lot of attention due to their potential application in energy storage. Among various oxide materials, sodium vanadate has been recognized as one of the most promising electrode materials because of high electrical conductivity. In addition, larger layer spacing of ${\beta}$-Na0.33V2O5 compared to V2O5 makes easier Li+ insertion. Moreover, ${\beta}$-Na0.33V2O5 has a tunnel like structure along b axis with 3 kinds of V site allowing it to enhance the ion intercalation by introducing three different intercalation sites along the tunnel. The tunnel can act as a fast diffusion path for ion diffusion, which can improve the overall charge storage kinetics. In this study, high quality single crystalline sodium vanadate (${\beta}$-Na0.33V2O5) nanowires were grown directly on Pt coated $SiO_2$ substrate by a facile chemical solution deposition method without employing catalyst, surfactant or carrier gas. The results show that great enhancement in capacitance was observed compared with previous reports.

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Mechanical Damage Behavior of Single Crystalline Silicon by Scratching Test (Scratching Test에 의한 단결정 실리콘의 기계적 손상거동)

  • 김현호;정성민;이홍림
    • Journal of the Korean Ceramic Society
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    • v.40 no.1
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    • pp.104-108
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    • 2003
  • COF(Coefficient Of Friction), AE(Acoustic Emission), micro-cracks and crystal structure of the single crystalline silicon were investigated according to the induced normal load during scratching test. Scratching tests were performed with the loading rate of 100 N/min and various scratching speeds of 1, 3, 6, 10 mm/min from 0 up to 30 N of the maximum normal load. In consequence, COF, AE and crack density were observed to increase with increasing normal load or increasing scratching speed. Phase transformations from the silicon diamond structure to other structures were observed in the scratched grooves for the slow scratching speeds using micro-Raman spectroscopy.

DSC and FTIR Studies of Miscible Poly(butylene 2,6-naphthalate)/Poly(4-vinylphenol) Blends (DSC와 FTIR을 이용한 상용성 (폴리부틸렌나프탈레이트/폴리비닐페놀) 블렌드의 연구)

  • 이준열;한지영
    • Polymer(Korea)
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    • v.26 no.6
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    • pp.737-744
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    • 2002
  • Thermodynamic miscibility of the binary blends composed of semi-crystalline poly (butylene 2,6-naphthalate) (PBN) and amorphous poly (4-vinylphenol) (PVPh) was investigated using differential scanning calorimetry (DSC) and Fourier transform infrared (FTIR) spectroscopy. DSC scan results showed that there was a single glass transition temperature (T$\_$g/) for each blend. Crystalline melting temperature (T$\_$m/) depression of the PBN in the blends was also observed with the increase of PVPh content. Both results of the single T$\_$g/ and the depression of T$\_$m/ for the PBN/PVPh blends indicate that the blends are thermodynamically miscible at the molecular level. FTIR spectroscopic analysis confirmed that strong intermolecular hydrogen bonding interactions between the ester carbonyl groups of the PBN and the hydroxyl groups of the PVPh are occurred.

Morphology-Controlled Fabrication of ZnS Nanostructures with Enhanced UV Emission

  • Kim, Yeon-Ho;Jang, Du-Jeon
    • Proceedings of the Korean Vacuum Society Conference
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    • 2013.02a
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    • pp.587-587
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    • 2013
  • ZnS is well-known direct band gap II-VI semiconductor, and it attracts intense interest due to its excellent properties of luminescence which enable ZnS to have promising materials for optical, photonic and electronic devices. Especially, the emission wavelength of ZnS falls in the UV absorption band of most organic compoundsand biomolecules, thus it is envisaged that ZnS based devices may find applications in increasingly important fluorescence sensing. We have developed a facile and effective one-step process for the fabrication of single-crystalline and pure-wurtzite ZnS nanostructures possessing sharp band-edge emission at room-temperature having diverse length-to-width ratios. Each of nanostructures was composed of chemically pure, structurally uniform, single-crystalline, and defect-free ZnS. These features not only suppress trap or surface states emission centered at 420 nm, but also enhance UV band-edge emission centered at 327 nm, which give as-synthesized our ZnS nanostructures possible sharp UV emission at room temperature. The reaction medium consisting of mixed solvents such as hydrazine, ethylenediamine, and water as well as proper reaction time and temperature have played an important role in the crystallinity and optical properties of ZnS nanostructures. As-synthesized our ZnS nanostructures possessing sharp UV emission guarantee high potential for both fundamental research and technological applications.

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Structure and optical properties of vapor grown In2O3: Ga nano-/microcrystals

  • Sanchez, Diego Leon;Ramon, Jesus Alberto Ramos;Zaldivar, Manuel Herrera;Pal, Umapada;Rosas, Efrain Rubio
    • Advances in nano research
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    • v.3 no.2
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    • pp.81-96
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    • 2015
  • Octahedral shaped single crystalline undoped and Ga-doped indium oxide nano-and microcrystals were fabricated using vapor-solid growth process. Effects of Ga doping on the crystallinity, defect structure, and optical properties of the nano-/microstructures have been studied using scanning electron microscopy, microRaman spectroscopy, transmission electron microscopy and cathodoluminescence spectroscopy. It has been observed that incorporation of Ga does not affect the morphology of $In_2O_3$ structures due to its smaller ionic radius, and similar oxidation state as that of In. However, incorporation of Ga in high concentration (~3.31 atom %) causes lattice compression, reduces optical band gap and defect induced CL emissions of $In_2O_3$ nano-/microcrystals. The single crystalline Ga-doped, $In_2O_3$ nano-/microcrystals with low defect contents are promising for optoelectronic applications.

Large Magnetic Entropy Change in Single Crystalline and Ploystalline $La_{0.7}Ca_{0.3}MnO_3$ (망간산화물 $La_{0.7}Ca_{0.3}MnO_3$의 거대 자기 엔트로피 효과)

  • 신현수;주홍렬
    • Journal of the Korean Magnetics Society
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    • v.10 no.4
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    • pp.149-153
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    • 2000
  • Large magnetic entropy change in single crystalline and polycrystalline perovskite manganites La$_{0.7}$Ca$_{0.3}$MnO$_3$ has been observed as magnetic field is changed. The large magnetic entropy change is believed to be caused by the abrupt reduction in magnetization as a result of 1st order-like magnetic transition. The large magnetic entropy change and easiness of the Curie temperature manipulation in the temperature range 100 K

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Optimization of the firing process condition for high efficiency solar cells on single-crystalline silicon (고효율 Solar Cell 제조를 위한 Firing 공정 조건의 최적화)

  • Jeong, Se-Won;Lee, Seong-Jun;Hong, Sang-Jin;Han, Seung-Su
    • Proceedings of the Korean Institute of Surface Engineering Conference
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    • 2006.10a
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    • pp.4-5
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    • 2006
  • This paper represents modeling and optimization techniques for solar cell process on single-crystalline float zone (FZ) wafers with high efficiency; There were the four significant processes : i)emitter formation by diffusion, anti-reflection-coating (ARC) with silicon nitride using plasma-enhanced chemical vapor deposition (PECVD); iii)screen-printing for front and back metallization; and iv)contact formation by firing. In order to increase the performance of solar cells, the contact formation process is modeled and optimized. This paper utilizes the design of experiments (DOE) in contact formation to reduce process time, fabrication costs. The experiments were designed by using central composite design which is composed of $2^4$ factorial design augmented by 8 axial points with three center points. After contact formation process, the efficiency of the solar cell is modeled using neural networks. This model is used to analyse the characteristics of the process, and to optimize the process condition using genetic algorithms (GA). Finally, find optimal recipe for solar cell efficiency.

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