• Korean Chemical Engineering Research
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• 제60권4호
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• pp.620-629
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• 2022

가열 속도, 몰 공간속도, 질화반응온도 등 다양한 실험 조건을 변화하며 바나디움 산화물과 암모니아와의 승온 질화반응을 통하여 바나디움 산화질화물을 제조하여 특성분석을 수행하였으며 제조된 바나디움 산화질화물 상에서 암모니아 분해반응의 촉매 활성을 검토하였다. 제조된 촉매의 물리·화학적 특성을 알아보기 위하여 N₂ 흡착분석, X-선 회절분석(XRD), 수소 승온환원(H₂-TPR), 산소 존재 하 승온산화 (TPO), 암모니아 탈착 (NH₃-TPD), 투과전자현미경(TEM) 분석을 수행하였다. 340 ℃에서 5 m² g^-1의 낮은 비표면적을 갖는 V₂O₅의 환원에 의하여 V₂O₃ 으로의 변환은 미세 기공 형성에 의해 115 m² g^-1 높은 비표면적 값을 보여주었으며 그 이상의 질화반응 온도가 증가함에 따라 소결현상에 의해 지속적인 비표면적의 감소를 초래하였다. 비표면적에 가장 큰 영향을 미치는 질화반응 변수는 반응온도였으며, 단일 상의 VN_xO_y의 x + y 값은 질화반응온도가 증가함에 따라 1.5에서 1.0으로 근접하였으며 680 ℃의 높은 반응온도에서 입방 격자상수 a는 VN 값에 근접하였다. 본 실험 조건 중에 질화반응온도가 가장 높았던 680 ℃에서 암모니아 전환율은 93%로 나타났으며 비활성화는 관찰되지 않았다.

• Bulletin of the Korean Chemical Society
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• 제16권2호
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• pp.143-148
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• 1995

Ketene (CH2CO) adsorption on Ag(111) has been studied in ultrahigh vacuum using electron energy loss spectroscopy and temperature programmed desorption. Ketene adsorbs molecularly on Ag(111) at temperatures below 126 K. The coverage increases linearly with exposure until saturation. No multilayer formation and no shift in desorption temperature with coverage were observed, indicating a lack of attractive interaction between adsorbate molecules. The desorption activation energy is estimated to be 7.8 kcal/mol by assuming first order kinetics and a pre-exponential factor of 1013 sec-1. The adsorption geometry of ketene on the surface is determined from the relative intensities of the vibrational energy loss peaks. The CCO axis of CH2CO is found to be almost parallel to (∼4°away from) the surface and the molecular plane is almost perpendicular to the surface (∼3°tilt).

• 공업화학
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• 제18권6호
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• pp.592-598
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• 2007

Temperature programmed desorption (TPD), XRD, SEM 및 FT-IR를 이용하여 코발트 프탈로시아닌 유도체의 황과 아민화합물에 대한 흡착효율을 조사하였다. 코발트 프탈로시아닌 유도체의 암모니아에 대한 TPD 측정결과, 산도가 낮은 온도($100{\sim}150^{\circ}C$)와 높은 온도($350{\sim}400^{\circ}C$)에서 두개의 탈착피크가 나타났다. 테트라카르복실 코발트프탈로시아닌(Co-TCPC)은 코발트 프탈로시아닌(Co-PC)보다 낮은 온도(물리적 흡착)에서 탈착피크가 약했지만 높은 온도(화학적 흡착)에서 강한 탈착피크가 나타났다. Co-TCPC와 Co-PC의 비표면적은 각각 37.5와 $18.4m^2/g$이었다. Co-TCPC와 Co-PC의 기공부피는 각각 0.17과 $0.10cm^3/g$이었다. 파과곡선으로부터 흡착용량을 계산하였더니 트리에틸 아민 가스 120 ppm의 평형농도에서 Co-TCPC의 흡착용량은 24.3 mmol/g, Co-PC의 흡착용량은 0.8 mmol/g로 나타났다. Co-TCPC와 Co-PC로 디메틸 술파이드 제거효율은 디메틸 술파이드 초기농도 225 ppm에서 각각 92와 18% 제거효율을 보였다. Co-TCPC와 Co-PC로 트리메틸아민 제거효율은 트리메틸아민 초기농도 118 ppm에서 각각 100.0%와 17.0% 제거효율을 보였다.

• 공업화학
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• 제4권2호
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• pp.365-372
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• 1993

양이온이 교환된 Y형 제올라이트에 담지된 니켈촉매상에서 이산화탄소의 메탄화반응을 상압과 $200{\sim}550^{\circ}C$의 온도범위, 수소와 이산화탄소의 몰비가 4인 조건에서 수행하였다. Y형 제올라이트에 이온교환된 양이온에 따라 이산화탄소와 니켈간의 결합력의 차이를 보였으며, TPD(Temperature-programmed desorption) 결과 Ni/NaY>Ni/MgY>Ni/HY 순으로 결합력이 작아지는 것으로 나타났고, TPSR(Temperature-programmed surface reaction)의 결과로부터 이산화탄소와 니켈의 결합력이 강할 때 반응의 활성이 좋음을 알 수 있었다. 니켈의 환원온도가 높을수록 반응활성이 증가하는 것으로 보아 이산화탄소의 메탄화반응은 환원된 니켈금속입자가 커질수록 유리한 것으로 나타났고, 니켈의 담지량이 3.3wt%일 때 최대의 활성을 나타내었다. 반응온도 조건의 전범위에서 일산화탄소가 부생성물로 생성되었으며, 반응물과 촉매의 접촉시간이 길어질수록 생성물질중의 일산화탄소가 감소하는 것으로 미루어 이산화탄소가 일산화탄소를 경유하여 메탄으로 전환됨을 알 수 있었다. $410{\sim}450^{\circ}C$의 온도범위에서 메탄의 생성속도는 이산화탄소의 분압에 대하여 3.3에서 -0.5 지수승에 비례하고 수소의 분압에 대하여 1.4에서 3.6 지수승에 비례하며, 이산화탄소와 수소가 경쟁적으로 니켈에 흡착함을 알 수 있었다.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2012년도 제42회 동계 정기 학술대회 초록집
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• pp.265-265
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• 2012

The adsorption of molecular $NH_3$ on rutile $TiO_2(110)-1{\times}1$ surfaces was investigated using a temperature-programmed desorption (TPD) technique combined with a molecular beam apparatus. A quantitative investigation into the TPD spectra of $NH_3$ was made for $NH_3$ adsorbed on two kinds of rutile $TiO_2(110)-1{\times}1$ surfaces with the oxygen vacancy ($V_O$) concentration of ~0% (p-$TiO_2(110)$) and ~5% (r-$TiO_2(110)$), respectively. On both surfaces, non-dissociative adsorption of $NH_3$ was inferred from a quantitative analysis on the amount of adsorbed $NH_3$ and those desorbed. With increasing coverage, the monolayer desorption feature shifted from 400 K toward lower temperatures until it saturates at 160 K, suggesting a repulsive nature in the interaction between $NH_3$ molecules. At the very low coverage regime, the desorption features were found to extend up to 430 K and 400 K on p-$TiO_2(110)$ and p-TiO(110), respectively. As a result, the saturation coverage of monolayer of $NH_3$ was higher on the p-$TiO_2(110)$ surface than on the p-TiO(110) by about 10%. The desorption energy ($E_d$) of $NH_3$ obtained by inversion of the Polanyi-Wigner equation indicated that the difference between the $E_d$'s of $NH_3$ (that is, $E_d(on\;p-TiO_2(110)$) - $E_d$(on p-TiO(110)) was 14 kJ/mol at ${\theta}(NH_3)=0$ and decreased to 0 as the coverage approached to a monolayer. The observed adsorption behavior of $NH_3$ was interpreted using an interaction model between $NH_3$ and surface defects on $TiO_2$ such as VO's and $Ti^{3+}$ interstitials.

• Bulletin of the Korean Chemical Society
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• 제30권7호
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• pp.1470-1474
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• 2009

Thermal and photochemistry of methyl iodide ($CH_3I)\;adsorbed\;on\;D_2O$ ice film on Cu(111) at 100 K were studied using temperature-programmed desorption (TPD) time-of-flight mass spectrometry (TOF-MS), X-ray and ultraviolet photoelectron spectroscopies. On the basis of TPD, multilayer and monolayer $CH_3I$ molecules desorb from $D_2O$ ice layer at 120 and 130 K, respectively. Photo-irradiation at 100 K exhibits dramatic changes in the TPD and I $3d_{5/2}\;XPS\;of\;CH_3I$ on ice film, due to a dramatic dissociation of $CH_3I$. The dissociation is likely activated by solvated electrons transferred from the metal substrate during photo-irradiation. No other photo-initiated reaction products were found within our instrumental detection limit. During photo-irradiation, the $CH_3I$, $CH_3$ and I could be trapped (or solvated) in ice film by rearrangement (and self-diffusion) of water molecules. A newly appeared parent molecular desorption peak at 145 K is attributed to trapped $CH_3I$. In addition, the $CH_3$ and I may diffuse through ice and chemisorb on Cu(111), indicated by TPD and I $d_{5/2}$ XPS taken with photo-irradiation time, respectively. No molecular ejection was found during photo-irradiation at 100 K. The work functions for $CH_3I/Cu(111),\;D_2O/Cu(111)\;and\;CH_3I/D_2$O/Cu(111) were all measured to be about 3.9 eV, 1.0 eV downward shift from that of clean Cu(111).

• 한국분말야금학회:학술대회논문집
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• 한국분말야금학회 2006년도 Extended Abstracts of 2006 POWDER METALLURGY World Congress Part2
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• pp.1039-1040
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• 2006

Vacuum degassing is essential in the preparation of RS P/M aluminum alloys to remove adsorbates and for the decomposition of hydrated-$Al_{2}O_3$ on the powder surface. Changes in the surface characteristics during vacuum degassing were investigated by X-ray photoelectron spectroscopy and temperature-programmed desorption measurement. Hydrated-$Al_{2}O_3$ decomposition to crystalline-$Al_{2}O_3$ and hydrogen desorption on the surface of argon gas-atomized aluminum powder occurred at 623 K and 725 K, respectively. This temperature difference suggests that the reaction converting hydrated-$Al_{2}O_3$ to crystalline-$Al_{2}O_3$ during vacuum degassing should be divided into the two reactions $"2Al+Al_{2}O_3{\cdot}3H_2O\;2Al_{2}O_3+6H_{surf}"and"6H_{surf}3H_2"$.

• 한국대기환경학회지
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• 제23권5호
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• pp.575-584
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• 2007

The adsorption capability of iron phthalocyanine derivatives were investigated by means of X-ray diffractometor (XRD), IR (infrared) spectroscopy, scanning electron microscopy (SEM) and temperature programmed desorption (TPD). According to TPD results, iron phthalocyanine derivatives showed two desorption peaks at low temperature ($100{\sim}150^{\circ}C$) and high temperature ($350{\sim}400^{\circ}C$) indicating that there were two kinds of acidities. Tetracarboxylic iron phthalocyanine (Fe-TCPC) have a stronger desorption peak (chemical adsorption) at the high temperature and a weaker desorption peak (physical adsorption) at the low temperature than iron phthalocyanine (Fe-PC). The specific surface areas of Fe-TCPC and Fe-PC were $26.46\;m^2/g\;and\;11.77\;m^2/g$, respectively. The pore volumes of Fe-TCPC and Fe-PC were $0.14\;cm^3/g\;and\;0.06\;cm^3/g$, respectively. The adsorption capability of triethyl amine calculated by breakthrough curve at 220 ppm of equilibrium concentration was 29.2 mmoL/g for Fe-TCPC and 0.8 mmoL/g for Fe-PC. The removal efficiency of dimethyl sulfide of Fe-TCPC and Fe-PC in batch experiment of 225 ppm of initial concentration were 44.9% and 28.9%, respectively. The removal efficiency of trimethyl amine of Fe-TCPC and Fe-PC in batch experiment of 118 ppm of initial concentration were approximately 100.0% and 33.9%, respectively.

• Bulletin of the Korean Chemical Society
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• 제34권10호
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• pp.3059-3064
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• 2013

In this study transesterification of Triglycerides (TG) from Jatropha curcas oil (JCO) with methanol for production of biodiesel was investigated over cerium impregnated ZSM-5 catalysts. NaZSM-5 was synthesized in an alkaline medium and impregnated with cerium oxide by wet method using cerium nitrate as a source for cerium. They were characterized by X-ray diffraction (XRD), Thermogravimeteric analysis (TGA), $CO_2$-temperature programmed desorption, and $N_2$ adsorption/desorption analysis. XRD analysis showed decrease in intensity of the patterns with the increase in the ceria loading but crystallization of ceria to larger size is an evident for 10 and 15% loading. The optimal yield of transesterification process was found to be 90% under the following conditions: oil to methanol molar ratio: 1:12; temperature: $60^{\circ}C$; time: 1 h; catalyst: 5 wt %. Here the yield of fatty acid methyl ester (FAME) was calculated through $^1H$ NMR analysis. The investigation on catalyst loading, temperature, time and reusability illustrated that these ceria impregnated NaZSM-5's were found to be selective, recyclable and could yield biodiesel at low temperature with low methanol to oil ratio due to the presence of both Lewis and Bronsted basicity. Hence, from the above study it is concluded that ceria impregnated ZSM-5 could be recognized as a potential catalysts for biodiesel production in industrial processes.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2012년도 제42회 동계 정기 학술대회 초록집
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• pp.87-88
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• 2012

Metal oxide nanostructures have been applied to various fields such as energy, catalysts and electronics. We have freely designed one and two-dimensional (1 and 2-D) metal (transition metals and lanthanides) oxide nanostructures, characterized them using various techniques including scanning electron microscopy, transmission electron microscopy, X-ray diffraction crystallography, thermogravimetric analysis, FT-IR, UV-visible-NIR absorption, Raman, photoluminescence, X-ray photoelectron spectroscopy, and temperature-programmed thermal desorption (reaction) mass spectrometry. In addition, Ag- and Au-doped metal oxides will be discussed in this talk.