• Bulletin of the Korean Chemical Society
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• 제33권10호
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• pp.3445-3447
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• 2012

• Korean Chemical Engineering Research
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• 제51권3호
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• pp.394-402
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• 2013

티타늄화합물과 티타늄부톡사이드를 각각 디아민과 결합시켜 새로운 구조의 중합촉매를 개발하였으며, 이들은 부타디엔의 삼중고리화를 통한 싸이클로도데카트리엔(CDT)의 합성반응에 대해 높은 촉매활성을 나타내었다. CDT합성반응은 고압식 액상반응기를 사용한 배취형 반응계에서 수행하였으며, 반응온도, 촉매의 종류, 촉매량, Al/Ti의 몰비 및 고정화방법 등이 생성물 CDT의 생성수율에 미치는 영향을 관찰하였다. 디아민과 4염화티타늄을 1:1로 결합시킨 촉매는 생성물 CDT에 대하여 90% 이상의 높은 선택성을 보였다. 생성된 CDT 중의 TTT/TTC 입체이성체비는 티타늄에 결합된 디아민의 종류와 Ti/디아민의 비율 등에 따라 달라졌다. 이들 균일계 착체는 담체상에 고정화시켜 사용할 수 있었으며, 티타늄 주촉매는 반응 중 추출되지 않고 활성을 유지하면서 여러 번 사용이 가능하였다. 실리카 담체보다는 탄소담체를 사용하여 티타늄화합물을 고정한 촉매가 보다 높은 활성을 보였으며, 특히 아미노실란 만을 중합시켜 제조한 담체에 티타늄을 결합시키면 BD의 전환율도 높고 CDT에 대한 선택도도 높게 나타났다.

• Bulletin of the Korean Chemical Society
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• 제35권2호
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• pp.525-530
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• 2014

Titanium dioxide nanotube supported ZSM-5 zeolite composite catalyst was fabricated by decorating ZSM-5 zeolite on the hydrothermally synthesized titanium dioxide via hydrothermal process and subsequent annealing. The catalyst was characterized by X-ray powder diffraction (XRD), Transmission electron microscopy (TEM) and Nitrogen adsorption-desorption (BET). The surface acidity of the catalyst was measured by means of Fourier transform infrared (FT-IR) spectrum of pyridine adsorption. And the catalytic activity for ethanol dehydration to ethylene was evaluated in a continuous flow fixed-bed reactor. Attributed to the increase of the effective surface acid sites caused by titanium dioxide nanotube as electron acceptor, titanium dioxide nanotube supported ZSM-5 zeolite composite catalyst exhibits strongly enhanced activity for ethanol dehydration to ethylene.

• Bulletin of the Korean Chemical Society
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• 제25권5호
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• pp.681-686
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• 2004

Ti-ZSM-5 prepared by secondary synthesis, from the reaction of H-ZSM-5 with vapor phase $TiCl_4$, was characterized with several physicochemical techniques including FT-IR and UV/VIS-DRS. It was found that zeolite structure, surface area and pore volume did not change, and the framework aluminum could not be replaced by titanium atom during the secondary synthesis of Ti-ZSM-5. The incorporation of titanium into the framework might be due to reaction of $TiCl_4$with the silanol groups associated with defects or surface sites. The formation of extra-framework titanium could not be avoided, unless the samples were further treated by water vapor at 550 $^{\circ}C$ or higher temperature. High temperature steam treatment of Ti-ZSM-5 prepared by chemical vapor deposition with $TiCl_4$was efficient to prevent the formation of non-framework titanium species. Ti-ZSM-5 zeolites prepared in this work contained only framework titanium species and exhibited improved catalytic property close to TS-1 prepared by hydrothermal synthesis.

• 구강회복응용과학지
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• 제33권2호
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• pp.71-79
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• 2017

목적: 본 연구는 베릴륨이 함유되지 않은 금속-도재용(Ni-Cr)합금 산화처리 시 도재로 안에 티타늄 파우더를 화학적 촉매로 이용하여 산화막을 억제하고, 금속 표면에 형성될 불순물을 제어하여 도재의 결합력을 증진시켜 줄 수 있는 가능성을 분석 하고자 하였다. 연구 재료 및 방법: 베릴륨이 함유되지 않은 금속-도재용(Ni-Cr)합금 산화처리 시 도재로 안에 티타늄을 화학적 촉매로 이용하였다. 티타늄 파우더를 화학적 촉매로 사용하지 않은 T1군을 대조군으로 하고, 10 g, 20 g 티타늄 파우더를 사용한 시편을 T2, T3군으로 분류하여 전단결합강도와 계면특성 관찰을 위하여 제작 하였다. 일원배치 분산분석(one-way ANOVA)은 그룹의 차이를 검사하기 위해서 시행하였고 사후 검정(Tukey Honestly Significant Difference test)은 그룹 간의 통계적 분석을 위하여 수행되었다. 결과: 티타늄 파우더를 화학적 촉매로 사용 한 T3군의 3점 굽힘 결합강도와 산화막 두께를 측정한 결과, $39.22{\pm}3.4MPa$와 $6.66{\mu}m$로 가장 높고, 얇게 나타났으며, T2군은 $34.65{\pm}1.39MPa$과 $13.22{\mu}m$, 티타늄 화학적 촉매로 사용하지 않은 대조군 T1군은 $32.37{\pm}1.91MPa$과 $22.22{\mu}m$ 순으로 나타났다. 결론: 시편들의 결합강도를 통계 분석한 결과, 티타늄 파우더를 화학적 촉매로 사용한 실험 T3, T2군의 결합력이 높게 나타났고, 산화막 두께 역시 대조군 T1군 보다 얇게 나타나 것으로 결합력 증진에 영향을 줄 수 있음이 관찰 되었다.

• Macromolecular Research
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• 제15권1호
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• pp.31-38
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• 2007

Pentamethylcyclopentadienyltitanium trichloride, bis(cyclopentadienyl)titanium dichloride ($Cp_2TiCl_2$), and bis(pentamethylcyclopentadienyl)titanium dichloride were used in the polymerization of styrene without the aid of Group I-III cocatalysts. The properties of the resulting polymer indicated that polymerization was more controlled than in thermal polymerization. The kinetic studies indicated that a lower level of termination is present and that the polymer chain can be extended by adding an additional monomer. To elucidate the mechanism of polymerization, a series of experiments was performed. All results supported the involvement of a radical mechanism in the polymerization using $Cp_2TiCl_2$. The possibility of atom transfer radical polymerization (ATRP) mechanism was investigated by isolating the intermediate species. We could confirm the activation step from the reaction of 1-PEC1 with $Cp_2TiCl$ by detecting the coupling product of the generated active radicals. However, the reversible deactivation reaction competes with other side reactions, and it detection was difficult with our model system.

• 한국결정성장학회지
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• 제12권2호
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• pp.91-95
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• 2002

Titannium tetra-isoporpoxide의 가수분해 반응을 이용하여 nanosize의 $TiO_2$powder를 합성하고, 가수분해 반응에 있어서 촉매로 사용되는 HCI과 $NH_4$OH의 첨가량에 따른 반응양상과 생성된 $TiO_2$분말의 특성의 변화를 조사하였다. 염기성 촉매인 $NH_4$OH,를 사용하였을 경우에 균질한 형상의 powder 형태의 $TiO_2$를 합성할 수 있었으며, 산성 촉매인 HCI을 사 용하여 p보가 5.04 이하일 경우에는 괴상이나 과립의 형태로 생성되었다. 사용한 촉매의 종류와 양에 따라 저온의 결정상인 anatase의 생성속도와 보다 안정한 rutile상으로의 상전이 속도가 영향을 받았다.

• 한국응용과학기술학회지
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• 제27권1호
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• pp.56-60
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• 2010

Titanium dioxide particles are used as photocatalysts, sensors, adsorbents and catalyst. Core-shell polymers of inorganic/organic pair, which have both core and shell component, were synthesized by sequential emulsion polymerization using Acrylate as a shell monomer and potassium persulfate (KPS) as an initiator. We found that when Acrylate core prepared by adding 0.5~2.0 wt% EU-S133D, Titanium dioxide / Acrylate core-shell polymerization was carried out on the surface of Titanium dioxide particle without forming the new Titanium dioxide particle during acrylate shell polymerized in the inorganic/organic core-shell polymer preparation. The structure of core-shell polymer were investigated by measuring to the thermal decomposition of polymer composite using thermogravimetric analyzer(TGA) and morphology of latex by scanning electron microscope(SEM).

• 한국전기전자재료학회논문지
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• 제37권5호
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• pp.512-518
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• 2024

Titanium oxide (TiO₂), a representative photocatalyst, reacts to ultraviolet ray energy and has antibacterial, deodorizing, and antifouling properties using superhydrophilic properties, so it is widely used in various industrial fields such as environmental purification, building exterior walls, and road facilities. However, due to the nature of the photocatalyst, it reacts to ultraviolet rays known to be harmful to the human body, and is designed to react to natural light outdoors and to ultraviolet light sources inside a sealed device indoors, so indoor space is extremely limited. This study aims to develop spatial antibacterial technology for everyday living spaces by researching methods for antibacterial and deodorization by reacting titanium oxide (TiO₂)-based photocatalysts with the visible light range emitted from lighting devices in everyday spaces. Through the results of this study, it was verified through experiments that the photocatalyst exhibits antibacterial and deodorizing properties in response to lighting devices (LED, fluorescent lights, etc.) used in daily life. Based on the research results, we hope that various studies will be conducted to create a safer living environment by applying this technology to various fields such as large-scale complex facilities where an unspecified number of floating populations gather, airports, port waiting rooms, and public transportation.

• Bulletin of the Korean Chemical Society
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• 제16권11호
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• pp.1099-1104
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• 1995

The catalyzed polycondensations of bis(2-hydroxyethyl) naphthalate were kinetically investigated in the presence of various antimony compounds as a catalyst. The polymerization were investigated with various ligand types of antimony oxides, various concentrations of antimony triacetate and titanium/antimony mixed catalysts. The time to reach the maximum molecular weight was remarkably changed in each case. With increasing the concentration of antimony acetate, the propagation rate was largely increased, while the degradation rate was slightly decreased. It also can be seen that the propagation and degradation rate were larger influenced by the equimolecular titanium/antimony mixed catalyst than other mixed catalysts. The temperature dependence of bis(2-hydroxyethyl) naphthalate with antimony triacetate also has been studied. From the results, it was found that the propagation rate was less influenced by a temperature change than the degradation rate.