RISS 검색 - 국내학술지논문 상세보기

다국어 초록 (Multilingual Abstract)

Various technical approaches and concepts have been proposed to develop conductive super-hydrophobic (SH) surfaces. However, most of these approaches are not usable in practical applications because of insufficient adhesion and cost issues. Additionally, durability and uniformity issues are still in need of improvement. The goal of this research is to produce a large-area conductive SH surface with improved adhesion performance and uniformity. To this end, carbon nanotubes (CNT) with a high aspect ratio and elastomeric polymer were utilized as a conductive filler and matrix, respectively, to form a coating layer. Additionally, nanoscale silica particles were utilized for stable implementation of the conductive SH surface. To improve the adhesion properties between the SH coating layer and substrate, pretreatment of the substrate was conducted by utilizing both wet and dry etching processes to create specific organic functional groups on the substrate. Following pretreatment of the surface, a zirco-aluminate coupling agent was utilized to enhance adhesion properties between the substrate and the SH coating layer. Raman spectroscopy revealed that adhesion was greatly improved by the formation of a chemical bond between the substrate and the SH coating layer at an optimal coupling agent concentration. The developed conductive SH coating attained a high electromagnetic interference (EMI) shielding effectiveness, which is advantageous in self-cleaning EMI shielding applications.

참고문헌 (Reference)

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3 P. Li, 954-, 2012

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8 H. Ogihara, 434 : 35-, 2013

9 H. Ogihara, 28 : 4605-, 2012

10 P. Theilmann, 14 : 1531-, 2013

1 C. H. Yoon, 18 : 4-, 2007

2 S. P. Bao, 8 : 729-, 2009

3 P. Li, 954-, 2012

4 P. Li, 642-, 2012

5 P. N. Manoudis, 24 : 11225-, 2008

6 W. Wu, 1 : 1656-, 2009

7 P. A. Levkin, 19 : 1993-, 2009

8 H. Ogihara, 434 : 35-, 2013

9 H. Ogihara, 28 : 4605-, 2012

10 P. Theilmann, 14 : 1531-, 2013

11 S. H. Park, 51 : 5071-, 2010

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13 C. H. Liu, 87 : 213108-, 2005

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30 H. S. Lim, 15 : 21-, 2012

31 C. Neinhuis, 79 : 667-, 1997

32 J. H. Zou, 20 : 3337-, 2008

33 H. Ogihara, 27 : 9069-, 2011

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35 Long-Yue Meng, "Superhydrophobic carbon-based materials: a review of synthesis, structure, and applications" 한국탄소학회 15 (15): 89-104, 2014

36 조연경, "Removal of oil by gelation using hydrophobic silica nanoparticles" 한국공업화학회 20 (20): 1231-1235, 2014

37 이경민, "Improved mechanical and electromagnetic interference shielding properties of epoxy composites through the introduction of oxyfluorinated multiwalled carbon nanotubes" 한국공업화학회 56 : 435-442, 2017

38 Long-Yue Meng, "Enhancement of superhydrophobicity and conductivity of carbon nanofibers-coated glass fabrics" 한국공업화학회 20 (20): 1672-1676, 2014

39 추건모, "Electrical heating behavior of flexible carbon nanotube composites with different aspect ratios" 한국공업화학회 35 : 195-198, 2016

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42 Garima Mittal, "A review on carbon nanotubes and graphene as fillers in reinforced polymer nanocomposites" 한국공업화학회 21 (21): 11-25, 2015

연월일	이력구분	이력상세
2023	평가예정	해외DB학술지평가 신청대상 (해외등재 학술지 평가)
2020-01-01	평가	등재학술지 유지 (해외등재 학술지 평가)
2011-01-01	평가	등재학술지 유지 (등재유지)
2009-01-01	평가	등재학술지 유지 (등재유지)
2007-01-01	평가	등재학술지 유지 (등재유지)
2004-01-01	평가	등재학술지 선정 (등재후보2차)
2003-01-01	평가	등재후보 1차 PASS (등재후보1차)
2001-07-01	평가	등재후보학술지 선정 (신규평가)

기준연도	WOS-KCI 통합IF(2년)	KCIF(2년)	KCIF(3년)
2016	3.4	0.75	2.84
KCIF(4년)	KCIF(5년)	중심성지수(3년)	즉시성지수
2.39	2.24	0.397	0.56

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Enhanced adhesion properties of conductive super-hydrophobic surfaces by using zirco-aluminate coupling agent

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