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2020 (Total 13 International Journals) 

59. Gi Dae Park, Yun Chan Kang*, "Amorphous cobalt selenite nanoparticles decorated on a graphitic carbon hollow shell for high-rate and ultralong cycle life lithium-ion batteries" ACS Sustainable Chem. Eng. 2020, 8, 17707-17717. <IF: 8.198, JCR Ranking Top: 9.44 %>  (1 These authors contributed equally to this work.) 

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58. Gi Dae Park, Yun Chan Kang*, "Conversion reaction mechanism for yolk-shell-structured iron telluride-C nanospheres and exploration of their electrochemical performance as an anode material for potassium-ion batteries" Small Methods 2020, 4, 2000556. <IF: 14.188, JCR Ranking Top: 7.04 %>  (1 These authors contributed equally to this work.) 

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57. Jeong Hoo Hong, Gi Dae Park, Su Hyun Yang, Jae Hun Choi, Yun Chan Kang*, "Efficient strategy for hollow carbon nanospheres embe dded with nickel hydroxide nanocrystals and their excellent lithium-ion storage performances" Scripta Materialia 2020, 188, 112-117. <IF: 5.611, JCR Ranking Top: 5.62 %>

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56. Sungjin Yang1, Gi Dae Park1, Yun Chan Kang*, "Conversion reaction mechanism of cobalt telluride-carbon composite microspheres synthesized by spray pyrolysis process for K-ion storage" Appl. Surf. Sci. 2020, 529, 147140. <IF: 6.707, JCR Ranking Top: 2.38 %>

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55. Sae Hoon Lim1, Gi Dae Park1, Yun Chan Kang*, "Investigation of cobalt hydroxysulfide as a new anode material for Li-ion batteries and its conversion reaction mechanism with Li-ions" Chem. Eng. J. 2020, 401, 126121. <IF: 13.273, JCR Ranking Top: 2.45 %> (1 These authors contributed equally to this work.) 

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54. Su Hyun Yang1, Seung-Keun Park1, Gi Dae Park, Jong-Heun Lee, Yun Chan Kang*, "Conversion reaction mechanism of ultrafine bimetallic Co-Fe selenides embedded in hollow mesoporous carbon nanospheres and their excellent K-ion storage performance" Small 2020, 16, 2002345. <IF: 13.281, JCR Ranking Top: 6.56 %> (1 These authors contributed equally to this work.) 

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53. Ju Hyeong Kim1, Gi Dae Park1, Yun Chan Kang*, "Amorphous iron oxide–selenite composite microspheres with a yolk–shell structure as highly efficient anode materials for lithium-ion batteries" Nanoscale 2020, 12, 10790-10798. <IF: 7.790, JCR Ranking Top: 14.06 %> (1 These authors contributed equally to this work.) 

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52. Gi Dae Park, Yun Chan Kang*, "Enhanced Li-ion storage performance of novel tube-in-tube structured nanofibers with hollow metal oxide nanospheres covered with a graphitic carbon layer" Nanoscale 2020, 12, 8404-8414. <IF: 7.790, JCR Ranking Top: 14.06 %> (1 These authors contributed equally to this work.) 

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51. Jeong Hoo Hong1, Gi Dae Park1, Dae Soo Jung, Yun Chan Kang*, "Lithium ion storage mechanism exploration of copper selenite as anode materials for lithium-ion batteries" J. Alloys Compd. 2020, 827, 154309. <IF: 5.316, JCR Ranking Top: 6.87 %> (1 These authors contributed equally to this work.) 

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50. Gi Dae Park, Jung-Kul Lee*, Yun Chan Kang*, "Electrochemical reaction mechanism of amorphous iron selenite with ultrahigh rate and excellent cyclic stability performance as new anode material for lithium-ion batteries" Chem. Eng. J. 2020, 389, 124350. <IF: 13.273, JCR Ranking Top: 2.45 %> 

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49. Sae Hoon Lim1, Gi Dae Park1, Dae Soo Jung, Jong-Heun Lee, Yun Chan Kang*, "Towards an efficient anode material for Li-ion batteries: understanding the conversion mechanism of nickel hydroxy chloride with Li ions" J. Mater. Chem. A 2020, 8, 1939-1946. <IF: 12.732, JCR Ranking Top: 6.58 %> (1 These authors contributed equally to this work.) 

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48. Jun Yeob Lee1, Gi Dae Park1, Jae Hun Choi, Yun Chan Kang*, "Structural combination of polar hollow microspheres and hierarchical N-doped carbon nanotubes for high-performance Li–S batteries" Nanoscale 2020, 12, 2142-2153. <IF: 7.790, JCR Ranking Top: 14.06 %> (1 These authors contributed equally to this work.) (1 These authors contributed equally to this work.) 

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47. Gi Dae Park1, Jae Hun Choi1, Dae Soo Jung, Jin-Sung Park, Yun Chan Kang*, "Three-dimensional porous pitch-derived carbon coated Si nanoparticles-CNT composite microsphere with superior electrochemical performance for lithium ion batteries" J. Alloys Compd. 2020, 821, 153224. <IF: 5.316, JCR Ranking Top: 6.87 %> (1 These authors contributed equally to this work.) 

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