H
Hyun Joo Kim
Researcher at Pukyong National University
Publications - 40
Citations - 971
Hyun Joo Kim is an academic researcher from Pukyong National University. The author has contributed to research in topics: Cretaceous & Kraft process. The author has an hindex of 15, co-authored 38 publications receiving 840 citations. Previous affiliations of Hyun Joo Kim include Chonnam National University.
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The potential value of the seaweed Ceylon moss (Gelidium amansii) as an alternative bioenergy resource
TL;DR: Sodium chlorite pretreatment is potentially a very useful tool in the utilisation of Ceylon moss biomass for ethanol production or bioenergy purposes and could increase the efficiency of enzymatic saccharification.
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Co-immobilization of three cellulases on Au-doped magnetic silica nanoparticles for the degradation of cellulose
TL;DR: Three cystein-tagged cellulases co-immobilized on AuNP and Au-MSNP for the hydrolytic degradation of cellulose showed good biochemical properties, stabilities, activities and reusability compared to mixtures of free cellulases.
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The roles of xylan and lignin in oxalic acid pretreated corncob during separate enzymatic hydrolysis and ethanol fermentation.
TL;DR: It is surmised that low residual xylan was critical in obtaining maximal glucose yields from saccharification in agricultural residues to ethanol following enzymatic hydrolysis.
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Dinosaur track-bearing deposits in the cretaceous jindong formation, korea : occurrence, palaeoenvironments and preservation
TL;DR: In this article, the authors examined track deposits of the Upper Cretaceous Jindong Formation, Korea, from a sedimentological viewpoint to interpret their palaeoenvironments and conditions of preservation.
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COMP-Ang1, a chimeric form of Angiopoietin 1, enhances BMP2-induced osteoblast differentiation and bone formation
Byung-Chul Jeong,Hyun Joo Kim,In-Ho Bae,Kkot-Nim Lee,Kwang Youl Lee,Won-Mann Oh,Sun-Hun Kim,In-Chol Kang,Shee-Eun Lee,Gou Young Koh,Kyung-Keun Kim,Jeong-Tae Koh +11 more
TL;DR: It is suggested that COMP-Ang1 synergistically enhanced osteoblast differentiation and bone formation through potentiating BMP2 signaling pathways and angiogenesis should be clinically useful for therapeutic application to fracture and destructive bone diseases.