• Title/Summary/Keyword: Amorphous Silicon (a-Si)

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Deposition and Photoluminescence Characteristics of Silicon Carbide Thin Films on Porous Silicon (다공성실리콘 위의 탄화규소 박막의 증착 및 발광특성)

  • 전희준;최두진;장수경;심은덕
    • Journal of the Korean Ceramic Society
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    • v.35 no.5
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    • pp.486-492
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    • 1998
  • Silicon carbide (SiC) thin films were deposited on the porous silicon substrates by chemical vapour de-position(CVD) using MTS as a source material. The deposited films were ${\beta}$-SiC with poor crystallity con-firmed by XRD measurement. It was considered that the films showed the mixed characteistics of cry-stalline and amorphous SiC where amorphous SiC where amorphous SiC played a role of buffer layer in interface between as-dep films and Si substrate. The buffer layer reduced lattice mismatch to some extent the generally occurs when SiC films are deposited on Si. The low temperature (10K) PL (phtoluminescence) studies showed two broad bands with peaks at 600 and 720 for the films deposited at 1100$^{\circ}C$ The maximum PL peak of the crystalline SiC was observed at 600 nm and the amrophous SiC of 720 nm was also confirmed. PL peak due the amorphous SiC was smaller than that of the crystalline SiC, PL of porous Si might be disapperared due to densification during heat treatment.

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Joule-heating Induced Crystallization (JIC) of Amorphous Silicon Films

  • Ko, Da-Yeong;Ro, Jae-Sang
    • Journal of the Microelectronics and Packaging Society
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    • v.25 no.4
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    • pp.101-104
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    • 2018
  • An electric field was applied to a Mo conductive layer in the sandwiched structure of $glass/SiO_2/Mo/SiO_2/a-Si$ to induce Joule heating in order to generate the intense heat needed to carry out the crystallization of amorphous silicon. Polycrystalline silicon was produced via Joule heating through a solid state transformation. Blanket crystallization was accomplished within the range of millisecond, thus demonstrating the possibility of a new crystallization route for amorphous silicon films. The grain size of JIC poly-Si can be varied from few tens of nanometers to the one having the larger grain size exceeding that of excimer laser crystallized (ELC) poly-Si according to transmission electron microscopy. We report here the blanket crystallization of amorphous silicon films using the $2^{nd}$ generation glass substrate.

Effect of p-type a-SiO:H buffer layer at the interface of TCO and p-type layer in hydrogenated amorphous silicon solar cells

  • Kim, Youngkuk;Iftiquar, S.M.;Park, Jinjoo;Lee, Jeongchul;Yi, Junsin
    • Journal of Ceramic Processing Research
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    • v.13 no.spc2
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    • pp.336-340
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    • 2012
  • Wide band gap p-type hydrogenated amorphous silicon oxide (a-SiO:H) buffer layer has been used at the interface of transparent conductive oxide (TCO) and hydrogenated amorphous silicon (a-Si:H) p-type layer of a p-i-n type a-Si:H solar cell. Introduction of 5 nm thick buffer layer improves in blue response of the cell along with 0.5% enhancement of photovoltaic conversion efficiency (η). The cells with buffer layer show higher open circuit voltage (Voc), fill factor (FF), short circuit current density (Jsc) and improved blue response with respect to the cell without buffer layer.

Influence of the process conditions for the amorphous silicon on the HSG-Si formation (비정질 규소막의 공정조건이 HSG-Si 형성에 미치는 영향)

  • Jeong, Jae-Young;Kang, Seong-Jun;Joung, Yang-Hee
    • The Journal of the Korea institute of electronic communication sciences
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    • v.10 no.11
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    • pp.1251-1256
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    • 2015
  • In this paper, the processing conditions of the amorphous silicon film growth were investigated the effect in forming the HSG-Si on the surface of the storage electrode. As a result, when the amorphous silicon film phosphorus concentration is greater than $5.5{\pm}0.1E19atoms/cm^3$, HSG-Si is not formed correctly and showed the concentration dependency of HSG formation. Also, the optimum condition of the phosphorus concentration for amorphous silicon and HSG thickness are $4.5E19atoms/cm^3$ and $450{\AA}$, respectively, because of the HSG thickness over the $500{\AA}$ create to bit failure according to a short of the electrodes and the electrode.

Crystallization of Amorphous Silicon Films Using Joule Heating

  • Ro, Jae-Sang
    • Journal of the Korean institute of surface engineering
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    • v.47 no.1
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    • pp.20-24
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    • 2014
  • Joule heat is generated by applying an electric filed to a conductive layer located beneath or above the amorphous silicon film, and is used to raise the temperature of the silicon film to crystallization temperature. An electric field was applied to an indium tin oxide (ITO) conductive layer to induce Joule heating in order to carry out the crystallization of amorphous silicon. Polycrystalline silicon was produced within the range of a millisecond. To investigate the kinetics of Joule-heating induced crystallization (JIC) solid phase crystallization was conducted using amorphous silicon films deposited by plasma enhanced chemical vapor deposition and using tube furnace in nitrogen ambient. Microscopic and macroscopic uniformity of crystallinity of JIC poly-Si was measured to have better uniformity compared to that of poly-Si produced by other methods such as metal induced crystallization and Excimer laser crystallization.

The Substrate Effects on Kinetics and Mechanism of Solid-Phase Crystallization of Amorphous Silicon Thin Films

  • Song, Yoon-Ho;Kang, Seung-Youl;Cho, Kyoung-Ik;Yoo, Hyung-Joun
    • ETRI Journal
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    • v.19 no.1
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    • pp.26-35
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    • 1997
  • The substrate effects on solid-phase crystallization of amorphous silicon (a-Si) films deposited by low-pressure chemical vapor deposition (LPCVD) using $Si_2H_6$ gas have been extensively investigated. The a-Si films were prepared on various substrates, such as thermally oxidized Si wafer ($SiO_2$/Si), quartz and LPCVD-oxide, and annealed at 600$^{\circ}C$ in an $N_2$ ambient for crystallization. The crystallization behavior was found to be strongly dependent on the substrate even though all the silicon films were deposited in amorphous phase. It was first observed that crystallization in a-Si films deposited on the $SiO_2$/Si starts from the interface between the a-Si and the substrate, so called interface-interface-induced crystallization, while random nucleation process dominates on the other substrates. The different kinetics and mechanism of solid-phase crystallization is attributed to the structural disorderness of a-Si films, which is strongly affected by the surface roughness of the substrates.

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Fabrication of Hydrogenated Amorphous Silicon Thin-Film Transistors for Flat Panel Display (평판 표시기를 위한 수소화된 비정질실리콘 박막트랜지스터의 제작)

  • Kim, Nam Deog;Kim, Choong Ki;Choi, Kwang Soo;Jang, Jin;Lee, Choo Chon
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.24 no.3
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    • pp.453-458
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    • 1987
  • Amorphous silicon thin-film transtors (TFT's) have been designed and fabricated on glass substrates. The hydrogenated amorphous silicon (a-Si:H) thin-film has been deposited by decomposing silane(SiH4) in hydorgen ambient by rf glow discharge method. Amorphous silicon nitride(a-Si:H) has been chosen as the gate dielectric material. It has been prepared by decomposing the mixed gas of silane(SiH4) and ammonia(NH3). The electrical properties and performance characteristics of the thin-film transistrs have been measured and compared with the requirements for the switching elements in liquid crystal flat panel display. The results show that liquid crystal flat panel displays can be fabricated using the thin-film transistors described in this paper.

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Surface passivation study of a-Si:H/c-Si heterojunction solar cells using VHF-CVD (VHF-CVD를 이용한 a-Si:H/c-Si 이종접합태양전지 표면 패시배이션 연구)

  • Song, JunYong;Jeong, Daeyoung;Kim, Kyoung Min;Park, Joo Hyung;Song, Jinsoo;Kim, Donghwan;Lee, JeongChul
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.05a
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    • pp.128.1-128.1
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    • 2011
  • In amorphous silicon and crystalline silicon(a-Si:H/c-Si) heterojuction solar cells, intrinsic hydrogenated amorphous silicon(a-Si:H) films play an important role to passivate the crystalline silicon wafer surfaces. We have studied the correlation between the surface passivation quality and nature of the Si-H bonding at the a-Si:H/c-Si interface. The samples were obtained by VHF-CVD under different deposition conditions. The passivation quality and analysis of all structures studied was performed by means of quasi steady state photoconductance(QSSPC) methods and fourier transform infrared spectrometer(FTIR) measurements respectively.

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Characteristics of poly-Si TFTs using Excimer Laser Annealing Crystallization and high-k Gate Dielectrics (Excimer Laser Annealing 결정화 방법 및 고유전 게이트 절연막을 사용한 poly-Si TFT의 특성)

  • Lee, Woo-Hyun;Cho, Won-Ju
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.21 no.1
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    • pp.1-4
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    • 2008
  • The electrical characteristics of polycrystalline silicon (poly-Si) thin film transistor (TFT) crystallized by excimer laser annealing (ELA) method were evaluated, The polycrystalline silicon thin-film transistor (poly-Si TFT) has higher electric field-effect-mobility and larger drivability than the amorphous silicon TFT. However, to poly-Si TFT's using conventional processes, the temperature must be very high. For this reason, an amorphous silicon film on a buried oxide was crystallized by annealing with a KrF excimer laser (248 nm)to fabricate a poly-Si film at low temperature. Then, High permittivity $HfO_2$ of 20 nm as the gate-insulator was deposited by atomic layer deposition (ALD) to low temperature process. In addition, the solid phase crystallization (SPC) was compared to the ELA method as a crystallization technique of amorphous-silicon film. As a result, the crystallinity and surface roughness of poly-Si crystallized by ELA method was superior to the SPC method. Also, we obtained excellent device characteristics from the Poly-Si TFT fabricated by the ELA crystallization method.

Deposition Behaviors of Ti-Si-N Thin Films by RF Plasma-Enhanced Chemical Vapor Deposition. (RF-PECVD법에 의한 Ti-Si-N 박막의 증착거동)

  • 이응안;이윤복;김광호
    • Journal of the Korean institute of surface engineering
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    • v.35 no.4
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    • pp.211-217
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    • 2002
  • Ti-Si-N films were deposited onto WC-Co substrate by a RF-PECVD technique. The deposition behaviors of Ti-Si-N films were investigated by varying the deposition temperature, RF power, and reaction gas ratio (Mx). Ti-Si-N films deposited at 500, 180W, and Mx 60% had a maximum hardness value of 38GPa. The microstructure of films with a maximum hardness was revealed to be a nanocomposite of TiN crystallites penetrated by amorphous silicon nitride phase by HRTEM analyses. The microstructure of maximum hardness with Si content (10 at.%) was revealed to be a nanocomposite of TiN crystallites penetrated by amorphous silicon nitride phase, but to have partly aligned structure of TiN and some inhomogeniety in distribution. and At above 10 at.% Si content, TiN crystallite became finer and more isotropic also thickness of amorphous silicon nitride phase increased at microstructure.