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        검색결과 5

        1.
        2022.03 KCI 등재 구독 인증기관 무료, 개인회원 유료
        As a new nanostructure, a graphene is a compound of carbon atoms with a two-dimensional structure that has attracted the attention of many nanoscale researchers due to its novel physical and chemical properties. The presence of all graphene atoms in the surface and its unique electrical properties, as well as the ability to functionalize and combine with another nanomaterial, has introduced graphene as a new and suitable candidate material for gas sensing. Over the years, many researchers have turned their attention to carbon nanomaterial. The unique optical, mechanical, and electronic properties of these nanostructures have led them to use these nanomaterials to develop tiny devices, such as low-consumption sensors. Carbon nanomaterial poses a threat to another nanomaterial in terms of their use in gas sensors. This review article discusses the use of carbon nanoparticles and graphene in gas sensors, examines the nodes in the commercialization pathway of these compounds, and presents the latest achievements. Finally, the perspectives of the challenges and opportunities in the field of sensors based on carbon nanomaterial and graphene are examined.
        6,400원
        3.
        2018.10 KCI 등재 구독 인증기관 무료, 개인회원 유료
        In the present study, we develop a conductive copper/carbon nanomaterial additive and investigate the effects of the morphologies of the carbon nanomaterials on the conductivities of composites containing the additive. The conductive additive is prepared by mechanically milling copper powder with carbon nanomaterials, namely, multi-walled carbon nanotubes (MWCNTs) and/or few-layer graphene (FLG). During the milling process, the carbon nanomaterials are partially embedded in the surfaces of the copper powder, such that electrically conductive pathways are formed when the powder is used in an epoxy-based composite. The conductivities of the composites increase with the volume of the carbon nanomaterial. For a constant volume of carbon nanomaterial, the FLG is observed to provide more conducting pathways than the MWCNTs, although the optimum conductivity is obtained when a mixture of FLG and MWCNTs is used.
        4,000원
        4.
        2013.12 KCI 등재 구독 인증기관 무료, 개인회원 유료
        The synthesis of carbon nanomaterials (CNMs) by a chemical vapor deposition method using three different plant oils as precursors is presented. Because there are four param-eters involved in the synthesis of CNM (i.e., the precursor, reaction temperature of the furnace, catalysts, and the carrier gas), each having three variables, it was decided to use the Taguchi optimization method with the ‘the larger the better’ concept. The best parameter regarding the yield of carbon varied for each type of precursor oil. It was a temperature of 900°C + Ni as a catalyst for neem oil; 700°C + Co for karanja oil and 500°C + Zn as a catalyst for castor oil. The morphology of the nanocarbon produced was also impacted by different parameters. Neem oil and castor oil produced carbon nanotube (CNT) at 900°C; at lower temperatures, sphere-like structures developed. In contrast, karanja oil produced CNTs at all the assessed temperatures. X-ray diffraction and Raman diffraction analyses confirmedthat the nanocarbon (both carbon nano beads and CNTs) produced were graphitic in nature.
        4,000원
        5.
        2012.10 KCI 등재 구독 인증기관 무료, 개인회원 유료
        이 연구에서는 친환경 선박용 재료로 각광받는 탄소나노물질에 대하여 실험적 연구를 수행하였다. 탄소나노물질의 합성을 위한 열원으로서는 대향류 메탄 화염을 이용하였다. 탄소나노물질 합성을 위한 촉매로서는 페로센을 사용하였다. 합성 특성을 파악하기 위한 주요 파라메타로는 대향류 메탄 화염에 수소의 혼합 비율과 샘플링 위치를 변화시켰다. 탄소나노물질의 성향은 SEM과 TEM 이미지를 이용하여 결정되었다. 실험 결과로서는 수소의 혼합 비율이 증가할수록 탄소나노물질의 생성이 잘 이루어졌다. 또한 대향류 메탄 확산화염 내 탄소나노튜브의 생성을 위한 적정 온도로는 1500 K 정도가 적당하다는 것을 알 수 있었다.
        4,000원