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Molecular structure of bent-shaped liquid crystal dimers
윤국로,Bong-Keun So,Kyung-Hwan Kim,Soo-Min Lee,Uma Ravi Sankar Arigala,Ok-Byung Choi,Hwan Myung Lee,Jin-Young Lee,김성조,Eun-Hee Cha,Eun Hye Lee,박주훈 한국공업화학회 2012 Journal of Industrial and Engineering Chemistry Vol.18 No.1
Liquid crystalline behavior of dimesogenic compounds opens a new area of research in liquid crystals science. The term ‘dimesogenic compounds’ describes thermotropic compounds consisting of two mesogenic units linked through a central spacer such as polymethylene and oligosiloxyl groups. The two mesogenic units may or may not be identical. When they are identical, they are occasionally called twin or siamese compounds.
목상해 저감 장치를 이용한 ACTIVE SEAT 개발에 대한 연구
윤국로(Googlo Yoon),신상훈(Sahnghoon Shin),성상석(Sangseok Seong),이현기(Hyeonki Lee) 한국자동차공학회 2011 한국자동차공학회 학술대회 및 전시회 Vol.2011 No.11
This paper presents the ACTIVE SEAT. The name ‘ACTIVE SEAT’ means the vehicle seat that using mechanism for reducing the neck injury. Although the vehicle is equipped with active head restraint normally for reducing the neck injury, many drivers were injured by rear-end collision. The reason is because active head restraint has many faults and mechanism is required for certain level of safety on the neck injury. Therefore mechanisms of various ways are studied actively. Finally, in this study, active seat using developed mechanism for reducing the neck injury shows better than active head restraint at KNCAP(Korea New Car Assessment Program) test and analysis program.
Porous 3D-b-nickel hydroxide microflowers for electrochemical supercapacitors
SINGUBALSYDULU,윤국로 한국공업화학회 2016 Journal of Industrial and Engineering Chemistry Vol.33 No.-
In this work we have carried out synthesis of porous three dimensional nickel hydroxide (3D-b-Ni(OH)2)microflowers by chemical bath deposition. The structure of the porous 3D-b-Ni(OH)2 microflowerscharacterized by using FT-IR, TGA, XRD, FE-SEM, TEM and XPS. The specific capacitance of the porous 3Db-Ni(OH)2 microflowers were showing around 249 F/g from cyclic voltammetry. The discharge specificcapacitance of the porous 3D-b-Ni(OH)2 microflowers were found to be 170 and 245 F/g for the 1st and8000th cycles, respectively. The energy and power density of the porous 3D-b-Ni(OH)2 microflowersfound to be 8.5 W h/kg and 2497.9 W/kg, respectively at the discharge current density of 0.05 A/g.