• Title/Summary/Keyword: 열촉매화학적

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Diversification of 4,5-disubstituted Pyrrolo[3,2-d]-pyrimidines by Microwave Assisted Metal Catalyzed Reaction (마이크로파와 금속 촉매를 이용한 Pyrrolo[3,2-d]-pyrimidine 유도체의 다양화)

  • Jeong Seob, Byeon;Eul Kgun, Yum;Yeong-Joon, Kim
    • Journal of the Korean Chemical Society
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    • v.66 no.6
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    • pp.442-450
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    • 2022
  • Diverse pyrrolo[3,2-d]pyrimidines that are expected to exhibit bioactivity were synthesized through O-arylation and Suzuki coupling reactions. Microwave-assisted O-arylation was successfully performed using a Cu metal catalyst, so that 4 position of pyrrolo[3,2-d]pyrimidine could be substituted with phenol group. In addition, 4-aryl substituted pyrrolo[3,2-d]pyrimidines were synthesized with good to excellent yields by microwave-assisted Suzuki coupling reaction using a Pd metal catalyst. By using microwaves as reaction conditions for diversification of derivatives, it was possible to dramatically overcome the disadvantages of traditional heat reactions of long reaction times and heat transfer efficiency problems. The result of this study can be used to be diversify pyrrolo[3,2-d]pyrimidine derivatives, which are expected to play an important role in the drug discovery research.

Recent Development of Carbon Dioxide Conversion Technology (이산화탄소 전환 기술의 현황)

  • Choi, Ji-Na;Chang, Tae-Sun;Kim, Beom-Sik
    • Clean Technology
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    • v.18 no.3
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    • pp.229-249
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    • 2012
  • At present, global warming and depletion of fossil fuels have been one of the big issues which should be solved for sustainable development in the future. CCS (carbon capture and sequestration) technology as the post $CO_2$ reduction technology has been considered as a promising solution for global warming due to increased carbon emission. However, the environmental and ecological effects of CCS have drawn concerns. There are needs for noble post reduction technology. More recently, CCU (carbon capture and utilization) Technology, which emphasizes transforming carbon dioxide into value-added chemicals rather than storing it, has been attracted attentions in terms of preventing global warming and recycling the renewable carbon source. In this paper, various technologies developed for carbon dioxide conversion both in gas and liquid phase have been reviewed. For the thermochemical catalysis in gas phase, the development of the catalytic system which can be performed at mild condition and the separation and purification technology with low energy supply is required. For the photochemical conversion in liquid phase, efficient photosensitizers and photocatalysts should be developed, and the photoelectrochemical systems which can utilize solar and electric energy simultaneously are also in development for more efficient carbon dioxide conversion. The energy needed in CCU must be renewable or unutilized one. CCU will be a key connection technology between renewable energy and bio industry development.

Differential Thermal Analysis and Quantum Chemical Consideration for Catalytic Stability of Ion Exchanged Faujasite Type Zeolite 1. Ni2+-Faujasite계 (이온교환된 Faujasite형 제올라이트의 촉매적 안정성에 대한 시차열분석 및 양자화학적 고찰; 1. Ni2+-Faujasite계)

  • Kim, Myung-Chul;Kim, Jong-Taik
    • Applied Chemistry for Engineering
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    • v.4 no.1
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    • pp.75-81
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    • 1993
  • The thermochemical stability of $Ni^{2+}-faujasite$ was studied by differential thermal analysis(DTA), thermal gravitational analysis(TGA), X-ray diffraction analysis(XRD) and quantum chemical calculations. Dehydration of $Ni^{2+}-faujasite$ was observed at 373-773K. A CNDO/2 calculations have been applied on cluster models for the representative T sites in faujasite to get total energy and wiberg bond orders. It has proved that the decrease of zeolitic crystallinity is directly related to the weakening of Al-O bonds in framework.

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Carbon Dioxide Reforming of Methane over a Ni/KIT-1 Catalyst (Ni/KIT-1 촉매를 이용한 메탄의 이산화탄소 개질반응 연구)

  • Ryn, Seong-Yun;Ahn, Wha-Seung;Park, Sang-Eon
    • Applied Chemistry for Engineering
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    • v.9 no.7
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    • pp.1070-1078
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    • 1998
  • Thermodynamic analysis on carbon dioxide reforming of methane was performed using a computer program which can handle condensed species in the products, and the reforming experiments were conducted over $Al_2O_3$, $La_2O_3$, ZSM-5, MCM-41, KIT-1 supported nickel catalysts, and a commercial ICI 46-1. It was estabished that a system which consists of $CH_4$, $CO_2$, CO, $H_2$, $H_2O$, and C is appropriate for theoretical equilibrium calculations and addition of water vapor or oxygen was found to diminish the contribution of carbon dioxide in reforming. Silicate molecular sieve-supported catalysts such as Ni/ZSM-5, Ni/MCM-41, Ni/KIT-1 were effective for high $CH_4$ and $CO_2$ conversions as well as for high CO yield. Coke formation was suppressed when CaO was added as a promoter. Ni/Ca/KIT-1 which contains 10% Ni with 3% Ca showed conversion approaching equilibrium levels above $650^{\circ}C$ and maintained constant activity over 20 h. Despite increased space velocity, relatively high conversion and CO yield were observed.

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MeV 전자빔 조사를 통한 Pt/Graphene 복합 나노구조의 형성

  • Cha, Myeong-Jun;Song, U-Seok;Kim, Yu-Seok;Jeong, Dae-Seong;Kim, Seong-Hwan;Lee, Su-Il;Park, Jong-Yun
    • Proceedings of the Korean Vacuum Society Conference
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    • 2012.02a
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    • pp.570-570
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    • 2012
  • 그래핀(graphene)은 육각형의 탄소원자 한층으로 이루어진 이차원 구조체로써 우수한 물리적, 전기적 특성으로 인해 다양한 분야에서 응요을 위한 연구가 활발히 진행되고 있다. 특히, 그래핀과 금속 나노입자의 복합구조는 수소 저장체, 가스센서, 연료전지, 화학 촉매등의 다양한 분야에서 응용이 가능하다. 현재까지 그래핀/금속나노입자 복합구조의 제작 방법에는 열증발(thermal evaporation), 전기도금법(electrodeposition), 표면 기능화(surface functionalization)를 이용한 방법이 보고되었다. 하지만 이러한 방법은 긴 공정시간이 요구되며, 나노입자의 크기 분포가 넓다는 단점을 지닌다. 본 연구에서는 화학기상증착법을 통해 합성된 그래핀이 전사된 SiO2 (300nm)/Si 기판에 염화기가 포함된 백금 화합물 분산용액을 스핀코팅(spin-coating)하고 MeV 전자빔을 조사하여 Pt/grapheme 복합구조를 형성하였다. 이 방법은 균일한 크기 분포의 나노입자의 형성이 가능하며, 간단하고, 대면적 공정이 가능하며, 다른 방법에 비해 그래핀의 결함형성이 적다는 장점을 지닌다. Pt/grapheme 의 기하학적 구조를 주사전자현미경(scanning electron microscopy)와 투과전자현미경(transimission)을 통해 분석하였고, Pt와 graphene의 일함수(workfunction)의 차이에 의해 야기되는 전하이동에 의한 도핑(doping)현상을 라만 분광기(Raman spectroscopy)와 X-선 광전자 분광기(X-ray photoelectron spectroscopy)를 통해 분석하였다.

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Synthesis of Poly(styrene carbonate) and Preparation of Styrene Carbonate by Thermal Degradation (Poly(styrene carbonate)의 합성 및 열분해에 의한 styrene carbonate의 제조)

  • Lee, Yoon Bae;Shin, Eun Jung;Yoo, Jin Yi
    • Applied Chemistry for Engineering
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    • v.19 no.1
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    • pp.133-136
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    • 2008
  • In order to decrease carbon dioxide, one of the green house gas, poly(styrene carbonate) has been synthesized from carbon dioxide and styrene oxide with zinc glutarate as a catalyst. The polymer has been identified as an alternating copolymer by spectroscopic analysis, FT-IR, $^1H$-NMR, and $^{13}C$-NMR. The number average molecular weight ($M_n$) of the polymer is $5.0{\times}10^4g/mol$ and the glass transition temperature ($T_g$) is $88^{\circ}C$ and its melting point ($T_m$) is $240^{\circ}C$. The cyclic carbonate, styrene carbonate, has been obtained by thermal degradation of the polymer via the unzipping mechanism.