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NTIS 바로가기한국유화학회지 = Journal of oil & applied science, v.30 no.3, 2013년, pp.461 - 471
Use of low bandgap polymers is the most suitable way to harvest a broader spectrum of solar radiations for solar cells. But, still there is lack of most efficient low bandgap polymer. In order to solve this problem, we have synthesised a new low bandgap polymer and investigated its interaction with ...
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핵심어 | 질문 | 논문에서 추출한 답변 |
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ILs의 물리화학적 특성 중 어떤 것이 혼합물의 사용특성 연구에 도움을 줄 것인가? | 특히 물리화학적 특성은 양이온과 음이온의 구조와 특성에 매우 민감하다[14,15,17]. 이러한 특징 (높은 전도도, 넓은 전기화학적 통로, 높은 화학적, 열적 안정성)은 고분자와 IL의 혼합물의 사용과 특성 연구에 도움을 줄 것이다. Homopolymer[28], copolymer[29], crosslinked polymer[30], block copolymers [31-36]와 IL 혼합물에서 전도도가 증가되는 고분자가 많이 발견되었다. | |
전도성 고분자와 이온성 액체(ILs)간의 상호작용 연구 중 어떤 것이 주목받고 있는가? | 현대 연구에 있어 전도성 고분자와 이온성 액체(ILs)간의 상호작용 연구[1-10]는 특히, 염료 감응 태양전지[11], Supercapacitors[12], 리튬 이온 전지[13], 연료 전지[14]를 고체상태 고분자전해질로 대체하려는 분야에서 주목받고 있다. ILs 는 유기물 또는 무기물과 약하게 배위되어 상호작용을 일으킨다[15-18]. | |
ILs의 특징은 무엇인가? | 현대 연구에 있어 전도성 고분자와 이온성 액체(ILs)간의 상호작용 연구[1-10]는 특히, 염료 감응 태양전지[11], Supercapacitors[12], 리튬 이온 전지[13], 연료 전지[14]를 고체상태 고분자전해질로 대체하려는 분야에서 주목받고 있다. ILs 는 유기물 또는 무기물과 약하게 배위되어 상호작용을 일으킨다[15-18]. ILs의 잠재적인 활용성과 응용성은 관련된 모든 분야에서 급격히 증가해오고 있다[19-27]. |
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