• Journal of the Korean Ceramic Society
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• v.33 no.7
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• pp.785-792
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• 1996

Formation of Solid Solution and Microstructure in Processureless sintered SiC-AlN compo-site using oxides as a sintering aid at 185$0^{\circ}C$ and 195$0^{\circ}C$ Regardless of SiC/AlN ratio in composition most of sintered specimens showed he complex structure mixed with 2H solid solution and SiC particles. High sintering temperature and large AlN content in starting composition enhanced the formation of 2H solid solution in sintered specimen 2H solid solution showed the spherical shape and core-rim structure. AlN content in the core is higher than that in the rim but SiC content . The size of 2H solid solution on fracture showed the transgranular fracture mode compared with the dispersed SiC particles which showed the intergranular fracture mode.

• Proceedings of the KIEE Conference
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• 1989.07a
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• pp.295-298
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• 1989

Using the anisotropic etching characteristics or $N_2H_4-H_2O$ solution, Si diaphragm was fabricated for the integrated sensor. The optimal composition and temperature of the solution in Si etching process was established to be 50mol% $N_2H_4$ in water at $105{\pm}2^{\circ}C$ for both higher etch rate(=$2.6{\mu}m/min$) and better surface quality of etched {100} planes. Under the optimal etching condition, the electrochemical etch stop technique was employed to form Si diaphragm for pressure sensor and diaphragm thickness was exactly controlled to $20{\pm}2{\mu}m$.

• Journal of IKEEE
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• v.18 no.4
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• pp.447-455
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• 2014

In this research, n-based 4H-MOS Capacitor was fabricated with PECVD (plasma enhanced chemical vapor deposition) process for improving SiC/$SiO_2$ interface properties known as main problem of 4H-SiC MOSFET. To overcome the problems of dry oxidation process such as lower growth rate, high interface trap density and low critical electric field of $SiO_2$, PECVD and NO annealing processes are used to MOS Capacitor fabrication. After fabrication, MOS Capacitor's interface properties were measured and evaluated by hi-lo C-V measure, I-V measure and SIMS. As a result of comparing the interface properties with the dry oxidation case, improved interface and oxide properties such as 20% reduced flatband voltage shift, 25% reduced effective oxide charge density, increased oxide breakdown field of 8MV/cm and best effective barrier height of 1.57eV, 69.05% reduced interface trap density in the range of 0.375~0.495eV under the conduction band are observed.

• Journal of the Korean Institute of Telematics and Electronics A
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• v.30A no.6
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• pp.14-21
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• 1993

MODFETs using the heterostructure of phosphorous-contained a-SiN:H: and undoped a-Si:H films have been fabricated by PECVD of SiH$_{4}$, PH$_{3}$ gases. Thecharacteristics of the devices have been invetigated and compared with conventional TFTs(CTFTs). The threshold voltage of the MODFETs was smaller than that of CTFTs, in the case of the devices using the a-SiN:H film with the relatively high phosphorous content, the threshold voltage was negative and the operation of the devices followed the depletion mode. On the other hand, on/off current ratio of the MODFETs was more than one order of magnitude higher than the CTFTs, and the field effect mobility of the former was approximately two times as high as that of the latter.

• Journal of Powder Materials
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• v.8 no.3
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• pp.174-178
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• 2001

The microstructure and mechanical properties of $Si_3N_4/BN $nanocomposites synthesized by chemical processing were investigated. The nanocomposites containing 15 vol% hexagonal BN (h-BN) were fabricated by hot-pressing $\alpha-Si_3N_4$powders covered with turbostratic BN (t-BN). The t-BN coating on $\alpha-Si_3N_4$particles was prepared by heating $\alpha-Si_3N_4$ particles covered with a mixture of boric acid and urea in hydrogen gas. TEM observations of this nanocomposite revealed that nano-sized h-BN particles were homogeneously dispersed within $Si_3N_4$grains as well as at grain boundaries. The strength and thermal shock resistance were significantly improved in comparison with the $Si_3N_4/BN$ microcomposites.

• Proceedings of the Korean Vacuum Society Conference
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• 2013.02a
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• pp.702-702
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• 2013

태양전지에서 SiNX층은 반사방지막 역할과 태양전지 소자 보호 역할 2가지를 동시에 하고 있다. 태양전지에서 반사방지막은 굴절률 1.97, 두께 76 nm가 이론적으로 최적의 상태이다. PECVD장비를 이용하여 SiNx 층을 증착하였다. SiNX층 증착 시에 RF 파워와 혼합 가스를 변화한 후 굴절률을 측정하였다. RF 파워는 100~400 W로 변화시켰고 혼합가스 변화는 SiH4가스와 N2, H2, N2+H2 가스 각각을 같이 넣어 주면서 증착하였다. SiNX 가스 자체에 N2가 80%섞여 있는 가스를 사용하기 때문에 SiH4 가스자체 만으로도 SiNx층을 형성 할 수 있다. RF파워 300 W, SiH4 50 sccm, 기판 온도 $300^{\circ}C$, 공정시간 63초에서 굴절률 1.965, 두께 76 nm를 갖는 SiNx층을 형성 할 수 있었고 개방전압: 0.616 V, 전류밀도: 37.78 mA/$cm^2$, 충실도:76.59%, 효율: 17.82%로 가장 높은 효율을 얻을 수 있었다.

• Journal of the Korean Chemical Society
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• v.67 no.5
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• pp.333-338
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• 2023

In this study, the H₂O reaction with SiO clusters was investigated using ab initio Monte Carlo simulations and density functional theory calculations. Three chemistry models, PBE1/DGDZVP (Model 1), PBE1/DGDZVP (Si atom), and aug-cc-pVDZ (O and H atoms), (Model 2) and PBE1/aug-cc-pVDZ (Model 3), were used. The average bond lengths, as well as the relative and reaction energies, were calculated using Models 1, 2, and 3. The average bond lengths of Si-O and O-H are 1.67-1.75 Å and 0.96-0.97 Å, respectively, using Models 1, 2, and 3. The most stable structures were formed by the H transfer from an H₂O molecule except for Si₃O₃-H₂O-1 cluster. The Si₃O₃ cluster with H₂O exhibited the lowest reaction energy. In addition, the Bader charge distributions of the Si_nO_n and (SiO)_n-H₂O clusters with n = 1-7 were calculated using Model 1. We determined that the reaction sites between H₂O and the SiO clusters possessed the highest fraction of electrons.

• Journal of the Korean Ceramic Society
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• v.29 no.9
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• pp.681-688
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• 1992

Ultrafine Si3N4 and Si3N4+SiC mixed powders were synthesized through thermal plasma chemical vapor deposition(CVD) using a hybrid plasma, which was characterized by the supersposition of a radio-frequency plasma and arc jet. The reactant SiCl4 was injected into an arc jet and completely decomposed in a hybrid plasma, and the second reactant CH4 and/or NH3 mixed with H2 were injected into the tail flame through double stage ring slits. In the case of ultrafine Si3N4 powder synthesis, reaction efficiency increased significantly by double stage injection compared to single stage one, although crystallizing behaviors depended upon injection speed of reactive quenching gas (NH3+N2) and injection method. For the preparation of Si2N4+SiC mixed powders, N/C composition ratio could be controlled by regulating the injection speed of NH3 and/or CH4 reactant and H2 quenching gas mixtures as well as by adjusting the reaction space.

• Proceedings of the Korean Vacuum Society Conference
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• 2011.02a
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• pp.254-254
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• 2011

현재 AMLCD(Active Matrix Liquid Crystal Display)는 노트북, 컴퓨터, TV등 여러 영상매체에 있어 가장 많이 활용되고 있는 디스플레이로 손꼽힌다. AMLCD에 구동소자로 사용되는 a-Si:H TFT는 낮은 제조비용과 축적된 기술을 바탕으로 가장 많이 쓰이고 있다. 특히 a-Si이 가지는 소형화나 대형화의 편의성은 모바일 기기, projection TV, 광고용 패널 등 적용분야가 점점 넓어지고 있는 추세이다. 하지만 a-Si라는 물질 자체가 가지는 낮은 이동도는 더 많은 application을 위해 해결되어야 할 과제이다. 낮은 이동도는 a-Si 실리콘 원자간 결합의 불규칙성 및 무질서와 dangling bond에 의한 localize state(deep trap, band tail)의 존재 때문에 발생하며 결과적으로 TFT 소자의 특성의 저하를 가져온다. 앞선 연구에서는 carrier이동도의 개선을 위해서 첫 번째로 insulator층과 active층 사이의 계면 상태를 향상시키기 위해 insulator로 쓰이는 a-SiN층 표면에 0~18 sccm의 유량으로 phosphorus를 주입하였다. AFM분석을 해본 결과 phosphorus를 주입함으로써 계면의 roughness가 줄어드는 것을 확인 할 수 있었다. 이러한 계면의 roughness 감소는 표면 산란(surface scattering)및 전자 포획(trap)의 영향을 줄임으로써 이동도의 향상을 가져왔다. 두 번째로 active층으로 쓰이는 a-Si:H 층의 표면에 phosphorus를 0?9sccm의 유량으로 doping하였다. 이로 인해 channel이 형성되는 active 영역에 직접적으로 불순물을 doping됨으로써 전도도를 증가되어 이동도를 향상시켰다. 하지만 지나친 doping은 불순물 산란(impurity scattering)의 증가로 인해 이동도를 저하시키는 결과를 보여 주었다. 본 연구에서는 TFT의 이동도 향상을 위해 두 가지의 technology를 함께 적용시켜 a-SiN/a-Si:H 계면 각각에 phosphorus를 주입 및 doping을 하였다. 모든 박막은 PECVD로 제작하였으며 각 박막의 두께는 a-SiN/a-SiN(phosphorus)/a-Si:H(doped)/a-Si:H/n+ a-Si($2350{\AA}/150{\AA}/150{\AA}/1850{\AA}/150{\AA}$)으로 고정하고 유량을 변화시키면서 특성을 관찰하였다.

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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• 2001.05b
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• pp.54-56
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• 2001

The $SiH_4$ soak step is widely used during the CVD Tungsten(W) plug deposition process on the Ti/TiN barrier metal to prevent the $WF_6$ attack to the underlayer metal. We tried to reduce or skip the time of $SiH_4$ soak process to optimize W-plug deposition process on Via. The electrical characteristics including Via resistance and the structure of W film are affected according to $SiH_4$ soak time. The elimination possibility of $SiH_4$ soak process was confirmed in the case of that the CVD W film grows on the stable Ti/TiN underlayer.