• 대한화학회지
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• 제41권3호
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• pp.130-137
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• 1997

육방형 이황화 티탄늄의 분말과 박막을 졸-겔법을 변형시켜 제조하였다. 여러 가지 용매하에서 이소프로폭시화 티탄늄과 황하 수소와의 반응에 의해 전구체의 침전을 유도한 후 이것을 황화 수소 분위기에서 열처리를 하면 분말이 얻어지는 반면 2-메톡시에톡시화 티탄늄과의 반응은 안정한 전구체 용액을 주므로 이것을 스핀 코팅하여 열처리하면 박막을 얻을 수 있다. 이러한 분말과 박막의 형태 변화를 열처리를 하면서 전자 현미경과 분말 X-선 회절기를 통해 살펴보았다.

• 대한화학회지
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• 제48권4호
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• pp.436-438
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• 2004

• 한국환경과학회지
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• 제18권11호
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• pp.1215-1224
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• 2009

This study evaluated the applicability of visible-light-driven N- and S-doped titanium dioxide($TiO_2$) for the control of low-level dimethyl sulfide(DMS) and dimethyl disulfide(DMDS). In addition, a photocatalytic unit(PU)-adsorption hybrid was evaluated in order to examine the removal of DMS and DMDS which exited the PU and a gaseous photocatalytic byproduct($SO_2$) which was generated during the photocatalytic processes. Fourier-Tranform-Infrared(FTIR) spectrum exhibited different surface characteristics among the three-types of catalysts. For the N- and S-doped $TiO_2$ powders, a shift of the absorbance spectrum towards the visible-light region was observed. The absorption edge for both the N- and S-doped $TiO_2$ was shifted to $\lambda$ 720 nm. The N-doped $TiO_2$ was superior to the S-doped $TiO_2$ in regards to DMS degradation. Under low input concentration(IC) conditions(0.039 and 0.027 ppm for DMS and DMDS, respectively), the N-doped $TiO_2$ revealed a high DMS removal efficiency(above 95%), but a gradual decreasing removal efficiency under high IC conditions(7.8 and 5.4 ppm for DMS and DMDS, respectively). Although the hybrid system exhibited a superior characteristic to PU alone regarding the removal efficiencies of both DMS and DMDS, this capability decreased during the course of a photocatalytic process under the high IC conditions. The present study identified the generation of sulfate ion on the catalyst surface and sulfur dioxide(maximum concentrations of 0.0019 and 0.0074 ppm for the photocatalytic processes of DMS and DMDS, respectively) in effluent gas of PU. However, this generation of $TiO_2$ would be an insignificant addition to indoor air quality levels.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2016년도 제50회 동계 정기학술대회 초록집
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• pp.294.1-294.1
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• 2016

Transition metal dichalcogenides (TMDs) with two-dimensional layered structure, such as molybdenum disulfide (MoS2) and tungsten diselenide (WSe2), are considered attractive materials for future semiconductor devices due to its relatively superior electrical, optical, and mechanical properties. Their excellent scalability down to a monolayer based on the van der Waals layered structure without surface dangling bonds makes semiconductor devices based on TMD free from short channel effect. In comparison to the widely studied transistor based on MoS2, researchs focusing on WSe2 transistor are still limited. WSe2 is more resistant to oxidation in humid ambient condition and relatively air-stable than sulphides such as MoS2. These properties of WSe2 provide potential to fabricate high-performance filed-effect transistor if outstanding electronic characteristics can be achieved by suitable metal contacts and doping phenomenon. Here, we demonstrate the effect of two different metal contacts (titanium and platinum) in field-effect transistor based on WSe2, which regulate electronic characteristics of device by controlling the effective barreier height of the metal-semiconductor junction. Electronic properties of WSe2 transistor were systematically investigated through monitoring of threshold voltage shift, carrier concentration difference, on-current ratio, and field-effect mobility ratio with two different metal contacts. Additionally, performance of transistor based on WSe2 is further enhanced through reliable and controllable n-type doping method of WSe2 by triphenylphosphine (PPh3), which activates the doping phenomenon by thermal annealing process and adjust the doping level by controlling the doping concentration of PPh3. The doping level is controlled in the non-degenerate regime, where performance parameters of PPh3 doped WSe2 transistor can be optimized.

• 한국세라믹학회지
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• 제49권2호
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• pp.135-141
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• 2012

To improve the visible-light induced photocatalytic application performances of $TiO_2$, in this study, the $NiS_2$ modied $TiO_2$ composites were prepared by two methods: hydrothermal method and sol-gel method. The composites were denoted as hs-$NiS_2$/$TiO_2$, and sg-$NiS_2$/$TiO_2$ and characterized by XRD, UV-vis absorbance spectra, SEM, TEM, EDX, and BET analysis. The photocatalytic activities under visible light were investigated by the degradation of methyl orange (MO). The photodegradation rate of methyl orange under visible light with $NiS_2$/$TiO_2$ composites was markedly higher than that of pure $TiO_2$, and the effect of hs-$NiS_2$/$TiO_2$ composites was better than that of sg-$NiS_2$/$TiO_2$. The results indicate that the hydrothermal process could partly inhibit the agglomeration of $NiS_2$/$TiO_2$. Thus, the dispersion of nanoparticles was improved, and that the promoting effect of $NiS_2$ could extend the light absorption spectrum toward the visible region.

• 대한환경공학회지
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• 제31권11호
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• pp.965-974
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• 2009

본 연구는 가시광선 조건에서 질소 및 황 도핑 $TiO_2$를 활용하여 악취유발 황화유기화합물질의 분해능을 평가하고, 광촉매 분해시 발생하는 촉매 비활성화와 비활성화된 촉매의 재생에 대해 조사하였다. 적외선 분광법을 이용하여 촉매 표면의 특성을 조사하였다. 가시광선을 이용한 광촉매 기술이 낮은 농도의 황화 이메틸(0.039 ppm)과 이황화 이메틸 (0.027 ppm)은 97% 이상의 높은 효율로 처리할 수 있으나, 촉매 비활성으로 인해 높은 농도(황화 이메틸, 7.8 ppm 및 이황화 이메틸, 5.4 ppm)에 대해서는 광촉매 공정 시간 5시간만에 처리 효율이 황화 이메틸은 84% 그리고 이황화 이메틸은 23%까지 매우 낮게 나타났다. 황화 이메틸에 비하여 황 원소가 하나 더 결합된 이황화 이메틸의 광촉매 분해시 촉매가 빠르게 비활성화되었다. 높은 유입 농도 조건에서 이황화 이메틸 또는 황화 이메틸의 광촉매 반응기의 출구 농도가 유 입농도와 비슷하거나, $CO_2$의 생성률이 제로에 가깝거나, FTIR 스펙트럼 상에서 촉매 표면의 비활성을 유발하는 황 이온 화합물의 피크들이 강하게 나타나, 촉매의 비활성화를 확인하였다. 광촉매 반응기의 유출구에서의 최대 $CO_2$ 농도인 8 ppm에 대해서 황화 이메틸의 광물화 효율을 계산한 결과 144%로서 100%를 초과한 것으로 나타났다. 건조-공기 및 습윤-공기 재생 방법에 비해 고온 소성에 의한 촉매의 재생효율이 높게(이황화 이메틸, 53% 그리고 황화 이메틸, 58%) 나타났으나, 이 또한 촉매 비활성을 유발시키는 황 이온 화합물과 같은 부산물들을 완전히 제거되지는 못하는 것으로 확인되었다.