The nanoporous F:SnO₂ materials have been prepared through the controlled hydrolysis of fluoro(2-methylbutan-2-oxy)di(pentan-2,4-dionato)tin followed by thermal treatment at 400-550℃. The main IR features include resonances at 660, 620 and 540 ㎝...
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https://www.riss.kr/link?id=A82265124
Deok-Woo Han (Kyungsung University) ; Jong-Hyun Heo (Kyungsung University) ; Dong-Joo Kwak ; Chi-Hwan Han (Korea Institute of Energy Research) ; Youl-Moon Sung
2009
English
SCIE,SCOPUS,KCI등재
학술저널
93-97(5쪽)
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
The nanoporous F:SnO₂ materials have been prepared through the controlled hydrolysis of fluoro(2-methylbutan-2-oxy)di(pentan-2,4-dionato)tin followed by thermal treatment at 400-550℃. The main IR features include resonances at 660, 620 and 540 ㎝...
The nanoporous F:SnO₂ materials have been prepared through the controlled hydrolysis of fluoro(2-methylbutan-2-oxy)di(pentan-2,4-dionato)tin followed by thermal treatment at 400-550℃. The main IR features include resonances at 660, 620 and 540 ㎝-1. From the TG-DTG result, three main mass losses of 6.5, 13.3 and 3.8 at 81, 289 and 490℃ are observed between 50 and 650℃ yielding a final residue of 76.0%. The size of Sn O2 nanoparticles rose from 5 ㎚ to 10-12 ㎚ as the temperature of thermal treatment is increased from 400 to 550℃.
목차 (Table of Contents)
Efficient Switch Mode Power Supply Design with Minimum Components for 5W Output Power
Optimal Coordination and Penetration of Distributed Generation with Shunt FACTS Using GA/Fuzzy Rules
Analysis of the Formal Specification Application for Train Control Systems
Analysis of Soil Ionization Behaviors under Impulse Currents