Kyoung-Sik Moon mostly deals with Composite material, Nanotechnology, Graphene, Nanoparticle and Nanocomposite. His Composite material study frequently intersects with other fields, such as Dielectric. Kyoung-Sik Moon has researched Nanotechnology in several fields, including In situ, Chemical engineering and Microwave irradiation.
The study incorporates disciplines such as Capacitance, Supercapacitor, Oxide and Metal in addition to Graphene. The various areas that Kyoung-Sik Moon examines in his Nanoparticle study include Sintering and Differential scanning calorimetry. Kyoung-Sik Moon combines subjects such as Nanorod, Contact angle, Silanes and Alkyl with his study of Nanocomposite.
Composite material, Epoxy, Adhesive, Nanotechnology and Nanoparticle are his primary areas of study. Polymer, Electrical conductor, Nanocomposite, Thermal conductivity and Composite number are subfields of Composite material in which his conducts study. His studies in Epoxy integrate themes in fields like Curing, Glass transition, Thermal stability and Flip chip.
His Adhesive research is multidisciplinary, relying on both Contact angle, Electrical resistivity and conductivity, Conductive polymer, Conductivity and Contact resistance. Nanotechnology is frequently linked to Surface modification in his study. His work in Nanoparticle tackles topics such as Metallurgy which are related to areas like Wetting.
His primary areas of investigation include Composite material, Chemical engineering, Epoxy, Graphene and Electrical conductor. His Composite material research is multidisciplinary, incorporating perspectives in Temperature cycling and Microelectronics. His work carried out in the field of Chemical engineering brings together such families of science as Oxide, Polyimide and Metal ions in aqueous solution.
His Epoxy research includes themes of Curing, Silicon carbide, Silane and Flip chip. Graphene is a subfield of Nanotechnology that Kyoung-Sik Moon studies. His studies deal with areas such as Elastomer, Thermal conductivity and Dielectric as well as Composite number.
His primary scientific interests are in Graphene, Chemical engineering, Composite material, Supercapacitor and Nanotechnology. His Graphene research incorporates themes from Electrochemistry and Electrode. His biological study spans a wide range of topics, including Copolymer, Capacitance and Cyanate ester, Dielectric.
Electrical conductor, Epoxy, Composite number, Polymer and Microstructure are the core of his Composite material study. Kyoung-Sik Moon combines subjects such as Nanoparticle, Nanowire and Polyvinylidene fluoride with his study of Composite number. His Nanotechnology study frequently draws connections to adjacent fields such as Surface modification.
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Electronics Without Lead
Yi Li;Kyoung-sik Moon;C. P. Wong.
Thermal Behavior of Silver Nanoparticles for Low-Temperature Interconnect Applications
Kyoung-Sik Moon;Hai Dong;Radenka Maric;Suresh Pothukuchi.
Journal of Electronic Materials (2005)
Glass transition and relaxation behavior of epoxy nanocomposites
Yangyang Sun;Zhuqing Zhang;Kyoung-Sik Moon;C. P. Wong.
Journal of Polymer Science Part B (2004)
Superior Capacitance of Functionalized Graphene
Ziyin Lin;Yan Liu;Yagang Yao;Owen J. Hildreth.
Journal of Physical Chemistry C (2011)
Surface Functionalized Silver Nanoparticles for Ultrahigh Conductive Polymer Composites
Hongjin Jiang;Kyoung-Sik Moon;Yi Li;C. P. Wong.
Chemistry of Materials (2006)
Large-scale production of two-dimensional nanosheets
Yagang Yao;Ziyin Lin;Zhuo Li;Xiaojuan Song.
Journal of Materials Chemistry (2012)
Synthesis and dielectric properties of novel high-K polymer composites containing in-situ formed silver nanoparticles for embedded capacitor applications
Jiongxin Lu;Kyoung-Sik Moon;Jianwen Xu;C. P. Wong.
Journal of Materials Chemistry (2006)
Thermo-mechanical Characterization of Metal/Polymer Composite Filaments and Printing Parameter Study for Fused Deposition Modeling in the 3D Printing Process
Seyeon Hwang;Edgar I. Reyes;Kyoung Sik Moon;Raymond C. Rumpf.
Journal of Electronic Materials (2015)
Magnetic alignment of hexagonal boron nitride platelets in polymer matrix: toward high performance anisotropic polymer composites for electronic encapsulation.
Ziyin Lin;Yan Liu;Sathyanarayanan Raghavan;Kyoung-sik Moon.
ACS Applied Materials & Interfaces (2013)
High dielectric constant polyaniline/epoxy composites via in situ polymerization for embedded capacitor applications
Jiongxin Lu;Kyoung-Sik Moon;Byung-Kook Kim;C.P. Wong.
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