Y
Ye Ji Noh
Researcher at Korea Institute of Science and Technology
Publications - 14
Citations - 642
Ye Ji Noh is an academic researcher from Korea Institute of Science and Technology. The author has contributed to research in topics: Carbon nanotube & Thermal conductivity. The author has an hindex of 10, co-authored 14 publications receiving 542 citations. Previous affiliations of Ye Ji Noh include Chonbuk National University.
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Ultra-high dispersion of graphene in polymer composite via solvent freefabrication and functionalization
Ye Ji Noh,Han-Ik Joh,Jaesang Yu,Soon Hyoun Hwang,Sungho Lee,Cheol-Ho Lee,Seong Yun Kim,Jae Ryoun Youn +7 more
TL;DR: It can be confirmed by looking at the statistical results of the filler-to-filler distance obtained from the digital processing of the fracture surface images that the various oxygenated functional groups of graphene oxide can help improve the dispersion of the filling and that the introduction of large phenyl groups to the graphene basal plane has a positive effect on the disp immersion.
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Thermal conductivity of graphene nanoplatelets filled composites fabricated by solvent-free processing for the excellent filler dispersion and a theoretical approach for the composites containing the geometrized fillers
TL;DR: In this article, the thermal conductivity of polymer composites containing nanofillers such as GNP (graphene nanoplatelet) and carbon black (CB) was investigated using experimental and theoretical approaches.
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Synergistic improvement of thermal conductivity in polymer composites filled with pitch based carbon fiber and graphene nanoplatelets
TL;DR: In this paper, the authors found that the thermal conductivity of composite materials was synergistically enhanced by the simultaneous incorporation of pitch-based carbon fibers (PCFs) and graphene nanoplatelets (GNPs) into the matrix.
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Silica aerogel/polyvinyl alcohol (PVA) insulation composites with preserved aerogel pores using interfaces between the superhydrophobic aerogel and hydrophilic PVA solution
TL;DR: In this article, a fabrication method was designed for thermal insulation composites by applying the thermal characteristics of silica aerogels with preservation of pores in the aerogel to achieve extremely low thermal conductivity of the composites.
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Prediction and experimental validation of electrical percolation by applying a modified micromechanics model considering multiple heterogeneous inclusions
TL;DR: In this paper, an analytical homogenization approach for composites containing multiple heterogeneities with conductive coated layers was developed in order to predict the percolation threshold effect, the tunneling effect using hard/soft core concept, and the effective electrical conductivity of polymer matrix composites (PMCs) containing randomly oriented ellipsoidal inclusions coated by conductive layers.