• 제목/요약/키워드: Ultrathin oxide

검색결과 59건 처리시간 0.031초

저온 래디컬 산화법에 의한 고품질 초박막 게이트 산화막의 성장과 이를 이용한 고성능 실리콘-게르마늄 이종구조 CMOS의 제작 (High Quality Ultrathin Gate Oxides Grown by Low-Temperature Radical Induced Oxidation for High Performance SiGe Heterostructure CMOS Applications)

  • 송영주;김상훈;이내응;강진영;심규환
    • 한국전기전자재료학회논문지
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    • 제16권9호
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    • pp.765-770
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    • 2003
  • We have developed a low-temperature, and low-pressure radical induced oxidation (RIO) technology, so that high-quality ultrathin silicon dioxide layers have been effectively produced with a high reproducibility, and successfully employed to realize high performace SiGe heterostructure complementary MOSFETs (HCMOS) lot the first time. The obtained oxide layer showed comparable leakage and breakdown properties to conventional furnace gate oxides, and no hysteresis was observed during high-frequency capacitance-voltage characterization. Strained SiGe HCMOS transistors with a 2.5 nm-thick gate oxide layer grown by this method exhibited excellent device properties. These suggest that the present technique is particularly suitable for HCMOS devices requiring a fast and high-precision gate oxidation process with a low thermal budget.

Synthesis and Photocatalytic Properties of Thermally Stable Metal-Oxide Hybrid Nanocatalyst with Ultrathin Oxide Encapsulation

  • Naik, Brundabana;Moon, Song Yi;Kim, Sun Mi;Jung, Chan Ho;Park, Jeong Young
    • 한국진공학회:학술대회논문집
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    • 한국진공학회 2013년도 제45회 하계 정기학술대회 초록집
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    • pp.317.2-317.2
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    • 2013
  • Ultrathin oxide encapsulated metal-oxide hybrid nanocatalysts have been fabricated by a soft chemical and facile route. First, SiO2 nanoparticles of 25~30 nm size have been synthesized by modified Stobber's method followed by amine functionalization. Metal nanoparticles (Ru, Rh, Pt) capped with polymer/citrate have been deposited on functionalized SiO2 and finally an ultrathin layer of TiO2 coated on surface which prevents sintering and provides high thermal stability while maximizing the metal-oxide interface for higher catalytic activity. TEM studies confirmed that 2.5 nm sized metal nanoparticles are well dispersed and distributed throughout the surface of 25 nm SiO2 nanoparticles with a 3-4 nm TiO2 ultrathin layer. The metal nanoparticles are still well exposed to outer surface, being enabled for surface characterization and catalytic activity. Even after calcination at $600^{\circ}C$, the structure and morphology of hybrid nanocatalysts remain intact confirm the high thermal stability. XPS spectra of hybrid nanocatalyst suggest the metallic states as well as their corresponding oxide states. The catalytic activity has been evaluated for high temperature CO oxidation reaction as well as photocatalytic H2 generation under solar simulation. The design of hybrid structure, high thermal stability, and better exposure of metal active sites are the key parameters for the high catalytic activity. The maximization of metal-TiO2 interface interaction has the great role in photocatalytic H2 production.

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An Analytical Model of the First Eigen Energy Level for MOSFETs Having Ultrathin Gate Oxides

  • Yadav, B. Pavan Kumar;Dutta, Aloke K.
    • JSTS:Journal of Semiconductor Technology and Science
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    • 제10권3호
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    • pp.203-212
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    • 2010
  • In this paper, we present an analytical model for the first eigen energy level ($E_0$) of the carriers in the inversion layer in present generation MOSFETs, having ultrathin gate oxides and high substrate doping concentrations. Commonly used approaches to evaluate $E_0$ make either or both of the following two assumptions: one is that the barrier height at the oxide-semiconductor interface is infinite (with the consequence that the wave function at this interface is forced to zero), while the other is the triangular potential well approximation within the semiconductor (resulting in a constant electric field throughout the semiconductor, equal to the surface electric field). Obviously, both these assumptions are wrong, however, in order to correctly account for these two effects, one needs to solve Schrodinger and Poisson equations simultaneously, with the approach turning numerical and computationally intensive. In this work, we have derived a closed-form analytical expression for $E_0$, with due considerations for both the assumptions mentioned above. In order to account for the finite barrier height at the oxide-semiconductor interface, we have used the asymptotic approximations of the Airy function integrals to find the wave functions at the oxide and the semiconductor. Then, by applying the boundary condition at the oxide-semiconductor interface, we developed the model for $E_0$. With regard to the second assumption, we proposed the inclusion of a fitting parameter in the wellknown effective electric field model. The results matched very well with those obtained from Li's model. Another unique contribution of this work is to explicitly account for the finite oxide-semiconductor barrier height, which none of the reported works considered.

Water-spliting on ultrathin MgO(100) film on Ag(100)

  • 조성범;조준형;정용재
    • 한국진공학회:학술대회논문집
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    • 한국진공학회 2011년도 제40회 동계학술대회 초록집
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    • pp.317-317
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    • 2011
  • Water dissociation on oxide surface has been researched in many fields because of its importance as fundamental phenomenas. MgO(001) is a good model system to understand heterogeneous catalysis, gas sensors, ground-water contaminants, and atmosphere chemistry. Over decades, ultrathin film of MgO on Ag(100) have attracted research activities thanks to its enhanced catalytic property. Correlation of the oxide and the metal, potential screening, charge fluctuation from interface reconstruction makes different energetics of hydroxylation of waters on film. We calculate the water-spliting energetics under the vacuum system.

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Ultrathin-body SOI MOSFETs에서 면방향에 따른 정공의 이동도 증가 (Hole Mobility Enhancement in (100)- and (110)-surface of Ultrathin-body(UTB) Silicon-on-insulator(SOI) Metal Oxide Semiconductors Field Effect Transistor)

  • 김관수;조원주
    • 한국전기전자재료학회논문지
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    • 제20권11호
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    • pp.939-942
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    • 2007
  • We investigated the characteristics of UTB-SOI pMOSFETs with SOI thickness($T_{SOI}$) ranging from 10 nm to 1 nm and evaluated the dependence of electrical characteristics on the silicon surface orientation. As a result, it is found that the subthreshold characteristics of (100)-surface UTB-SOI pMOSFETs were superior to (110)-surface. However, the hole mobility of (110)-surface were larger than that of (100)-surface. Especially, the enhancement of effective hole mobility at the effective field of 0.1 MV/cm was observed from 3-nm to 5-nm SOI thickness range.

Soft X-ray Nano-spectroscopy for Electronic Structures of Transition Metal Oxide Nano-structures

  • Oshima, Masaharu
    • Applied Science and Convergence Technology
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    • 제23권6호
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    • pp.317-327
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    • 2014
  • In order to develop nano-devices with much lower power consumption for beyond-CMOS applications, the fundamental understanding and precise control of the electronic properties of ultrathin transition metal oxide (TMO) films are strongly required. The metal-insulator transition (MIT) is not only an important issue in solid state physics, but also a useful phenomenon for device applications like switching or memory devices. For potential use in such application, the electronic structures of MIT, observed for TMO nano-structures, have been investigated using a synchrotron radiation angle-resolved photoelectron spectroscopy system combined with a laser molecular beam epitaxy chamber and a scanning photoelectron microscopy system with 70 nm spatial resolution. In this review article, electronic structures revealed by soft X-ray nano-spectroscopy are presented for i) polarity-dependent MIT and thickness-dependent MIT of TMO ultrathin films of $LaAlO_3/SrTiO_3$ and $SrVO_3/SrTiO_3$, respectively, and ii) electric field-induced MIT of TMO nano-structures showing resistance switching behaviors due to interfacial redox reactions and/or filamentary path formation. These electronic structures have been successfully correlated with the electrical properties of nano-structured films and nano-devices.

$N_2O$ 분위기에서 열산화법으로 성장시킨 $SiO_2$초박막의 전기적 특성 (Electrical Characterization of Ultrathin $SiO_2$ Films Grown by Thermal Oxidation in $N_2O$ Ambient)

  • 강석봉;김선우;변정수;김형준
    • 한국재료학회지
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    • 제4권1호
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    • pp.63-74
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    • 1994
  • $SiO_{2}$초박막(ultrathin film)의 두께 조절 용이성, 두께 균일성, 공정 재현성 및 전기적 특성을 향상시키기 위해 실리콘을 $N_{2}O$분위기에서 열산화시켰다. $N_2O$분위기에서 박막 성장시 산화와 동시에 질화가 이루어지기 때문에 전기적 특성의 향상을 가져올 수 있었다. 질화 현상에 의해 형성된 Si-N결합 형성은 습식 식각율과 ESCA분석으로 확인할 수 있었다. $N_2O$분위기에서 성장된 $SiO_{2}$박막은 Fowler-Nordheim(FN)전도 기구를 보여주었으며, 절열파괴 특성과 누설 전류특성 및 산화막의 신뢰성은 건식 산화막에 비해서 우수하였다. 또한 계면 포획밀도는 건식 산화막에 비해 감소하였고, 전하를 주입했을 때 생성되는 계면 준위의 양 또는 크게 감소하였다. 산화막 내부에서의 전하 포획의 양도 감소하였고, 전하를 주입하였을 때 생성되는 전하 포획의 양도 감소하였다. 이와 같은 전기적인 특성의 향상은 산화막 내부에서 약하게 결합하고 있는 Si-O 결합들이 Si-N결합으로의 치환과 스트레스 이완에 의하여 감소하였기 때문이다.

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