• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 1993년도 춘계학술대회 논문집
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• pp.104-108
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• 1993

Thin films of MgO-doped and CaO-doped iron oxide were prepared y spray pyrolysis. The films were characterized b X-ray diffraction, scanning electron microscopy and voltammetric techniques. The photoelectrochemical behavior of thin film electrodes depended greatly on the doping level, sintering temperature, substrate temperature and added photosensitizing compounds in solution, showed p-type photoelectrochemical behavior, while the CaO-doped iron oxide thin films prepared at low temperature showed n-type photoelectrochemical behavior. This characteristic change was interpreted in terms of the surface structure change of the thin films and doping effect of metal oxide.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 1999년도 추계학술대회 논문집
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• pp.354-357
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• 1999

This paper describes on the electrical and physical charateristics thin-film type Pt-RTD\\`s on Si wafers, in which MgO thin-films were used as medium layer in order to improve adhesion of Pt thin-films to SiO$_2$ layer. The MgO medium layer had the properties of improving Pt adhesion to SiO$_2$ and insulation without chemical reaction to Pt thin-films and the resistivity of Pt thin-films was improved. In the analysis of properties of Pt-RTD, TCR value had 3927 ppm/$^{\circ}C$ and liner in the temperature range of room temperature to 40$0^{\circ}C$

• 한국전기전자재료학회논문지
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• 제16권12S호
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• pp.1224-1231
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• 2003

This paper reports on the air-gap type thin film bulk acoustic wave resonator(FBAR) using ultra thin wafer with thickness of 50$\mu\textrm{m}$. It was fabricated to realize a small size devices and integrated objects using MEMS technology for flexible microsystems. To reduce a error of experiment, MATLAB simulation was executed using material characteristic coefficient. Fabricated thin FBAR consisted of piezoelectric film sandwiched between metal electrodes. Used piezoelectric film was the aluminum nitride(AlN) and electrode was the molybdenum(Mo). Thin wafer was fabricated by wet etching and dry etching, and then handling wafer was used to prevent damage of FBAR. The series resonance frequency and the parallel frequency measured were 2.447㎓ and 2.487㎓, respectively. Active area is 100${\times}$100$\mu\textrm{m}$$^2$.Q-factor was 996.68 and K$^2$$\_$eff/ was 3.91％.

• 대한전기학회논문지:전기물성ㆍ응용부문C
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• 제55권1호
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• pp.26-29
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• 2006

Transparent ZnO thin films were prepared by KrF pulsed laser deposition (PLD) technique and applied to a bottom-gate type thin film transistor device as an active channel layer. A high conductive crystalline Si substrate was used as an metal-like bottom gate and SiN insulating layer was then deposited by LPCVD(low pressure chemical vapour deposition). An aluminum layer was then vacuum evaporated and patterned to form a source/drain metal contact. Oxygen partial pressure and substrate temperature were varied during the ZnO PLD deposition process and their influence on the thin film properties were investigated by X-ray diffraction(XRD) and Hall-van der Pauw method. Optical transparency of the ZnO thin film was analyzed by UV-visible phometer. The resulting ZnO-TFT devices showed an on-off ration of $10^6$ and field effect mobility of 2.4-6.1 $cm^2/V{\cdot}s$.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2009년도 하계학술대회 논문집
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• pp.250-250
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• 2009

Thin film of $SnO_2$ was fabricated from plasma enhanced atomic layer deposition technology with bubbler type injector system by using TEMASn (tetrakisethylmethylamino tin) precursor. Mostly crystalline of $SnO_2$ films can be obtained with oxygen plasma and with water at relatively low temperature of $150^{\circ}C$. $SnO_2$ was deposited as an uniform rate of $1.0A^{\circ}$/cycle. In order to obtain uniform film, a seed oxide material was used before TEMASn deposition in ALD process. The process parameters were controlled to obtain dense thin film by atomic deposition methodology. The morphology and characterization of thin film with optimized process condition will be discussed.

• 반도체디스플레이기술학회지
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• 제5권2호
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• pp.47-49
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• 2006

Various methods of making thin film is being used in semiconductor manufacturing process. The most common method in this field includes CVD(Chemical Vapor Deposition) and PVD(Physical Vapor Deposition). Thin film is deposited on both the backside and the frontside of wafers. The thin film deposited on the backside has poor thickness profile, and can contaminate wafers in the following processes. If wafers with the thin film remaining on the backside are immersed in batch type process tank, the thin film fall apart from the backside and contaminate the nearest wafer. Thus, it is necessary to etch the backside of the wafer selectively without etching the frontside, and chemical injection nozzle positioned under the wafer can perform the backside etching. In this study, the backside chemical injection nozzle with optimized chemical injection profile is built for single wafer tool. The evaluation of this nozzle, performed on $Si_3N_4$ layer deposited on the backside of the wafer, shows the etching rate uniformity of less than 5% at the etching rate of more than $1000{\AA}$.

• 한국진공학회지
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• 제8권1호
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• pp.31-35
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• 1999

본 연구에서는 반도체 소자에서 일렉트로마이그레이션에 기인하는 Al-1%Si 박막배선의 길이 변화에 따른 수명시간 의존도를 조사하였다. 사용된 Al-1%Si 박막배선은 표준 사진식각 공정(standard photolithography process)을 사용하여 제작된 직선형 패턴이다. 직선형 패턴은 100에서 1600 $mu extrm{m}$ 범위의 길이 변화를 갖도록 제작하였다. Ti underlayer가 없는 시편보다 Ti underlayer가 있는 시편에서 Al-1%Si 박막배선의 수명시간이 더 길게 나타났다. Ti underlayer를 갖는 시편에서 electromigration에 대한 저항성을 향상시키는 것으로 사료되어진다. Al-1%Si 박막배선의 길이에 의존하는 수명시간은 800$\mu\textrm{m}$ 이하에서 포화되는 경향을 나타내었다.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2000년도 영호남학술대회 논문집
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• pp.21-24
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• 2000

Properties of thermoelectric power in PbS thin films by chemical bath deposition were investigated The qualified PbS thin film was gained with the amounts of Thiourea($4-8ml/{\ell}$ ), Triethanolamine (1-2ml) and NaOH(l0ml). The molecular ratio of Pb and S was 3 : 7. Satisfied crystallization rate and deposition rate of PbS were greater at $50^{\circ}C$ than at $30^{\circ}C$. The constant of thermoelectric power in PbS was nearly $ 500uv/^{\circ}k$. The PbS thin film was changed from p-type to n-type semiconductor at around $200^{\circ}C$. In case of heat treatment at $300^{\circ}C$, the sample kept the characteristic of p-type semiconductors up to $250^{\circ}C$.

• 한국결정성장학회지
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• 제24권3호
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• pp.106-110
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• 2014

Atomic layer deposition(ALD)을 이용하여 $Al_2O_3$ 박막을 형성하고 이에 대한 패시베이션 특성에 대한 연구를 수행하였다. ALD로 증착된 $Al_2O_3$ 박막은 $400^{\circ}C$ 5분간 후속 열처리 공정 후에도 $Al_2O_3$ - 실리콘 계면 반응 없이 비정질 상태를 유지할 만큼 구조적으로 안정한 특성을 나타내었다. 후속 열처리 후 $Al_2O_3$ 박막의 패시베이션 특성이 향상되었으며, 이는 field effective 패시베이션과 화학적 패시베이션 효과가 동시에 상승에 기인하는 것으로 판단된다. $Al_2O_3$ 박막의 음고정 전하를 정량적으로 평가하기 위해서 후속 열처리 공정을 거친 $Al_2O_3$ 박막을 이용하여 metal-oxide-semiconductor(MOS) 소자를 제작하고 capacitance-voltage(C-V) 분석을 수행하였다. C-V 결과로부터 추출된 flatband voltage($V_{FB}$)와 equivalent oxide thickness(EOT)의 관계식을 통하여 $Al_2O_3$ 박막의 고정음전하는 $2.5{\times}10^{12}cm^{-2}$로 계산되었으며, 이는 본 연구에서 제시된 $Al_2O_3$ 박막 공정이 N-type 실리콘 태양전지의 패시베이션 공정에 응용 가능하다는 것을 의미한다.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2009년도 제38회 동계학술대회 초록집
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• pp.454-454
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• 2010

In order to achieve a high efficient a-Si solar cell, the TCO (transparent conductive oxide) substrates are required to be a low sheet resistivity, a high transparency, and a textured surface with light trapping effect. Recently, a zinc oxide (ZnO) thin film attracts our attention as new coating material having a good transparent and conductive for TCO of solar cells. In this paper the optical properties of $H_2$ post-treated BZO (boron doped ZnO, ZnO:B) thin film are investigated with $O_2$-plasma treatment. The BZO thin films by MOCVD (Metal Organic Chemical Vapor Deposition) are investigated and the samples of $H_2$ post-treated BZO thin film are tested with $O_2$-plasma treatment by plasma treatment system with 13.56 MHz as RIE (Reactive Ion Etching) type. We measured the optical properties and surface morphology of BZO thin film with and without $O_2$-plasma treatment. The optical properties such as transmittance, reflectance and haze are measured with integrating sphere and ellipsometer. This result of the BZO thin film with and without $O_2$-plasma treatment is application to the TCO for solar cells.