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124. R. Saroha, J. H. Oh, J. S. Lee, Y. C. Kang, S. M. Jeong, D.-W. Kang, C. Cho, and J. S. Cho*, "Hierarchically porous nanofibers comprising multiple core–shell Co3O4@graphitic carbon nanoparticles grafted within N-doped CNTs as functional interlayers for excellent Li–S batteries", (2021) (Submitted)
124. R. Saroha, J. H. Oh, J. S. Lee, Y. C. Kang, S. M. Jeong, D.-W. Kang, C. Cho, and J. S. Cho*, "Hierarchically porous nanofibers comprising multiple core–shell Co3O4@graphitic carbon nanoparticles grafted within N-doped CNTs as functional interlayers for excellent Li–S batteries", (2021) (Submitted)
124. R. Saroha, J. H. Oh, J. S. Lee, Y. C. Kang, S. M. Jeong, D.-W. Kang, C. Cho, and J. S. Cho*, "Hierarchically porous nanofibers comprising multiple core–shell Co3O4@graphitic carbon nanoparticles grafted within N-doped CNTs as functional interlayers for excellent Li–S batteries", (2021) (Submitted)
123. J. S. Lee, R. Saroha, S. H. Oh, D. H. Shin, Y. C. Kang, S. M. Jeong, J. K. Kim*, and J. S. Cho*, "Rational design of perforated bimetallic (Ni, Mo) sulfides/N-doped graphitic carbon composite microspheres as anode materials for superior Na-ion batteries", (2021) (Submitted)
123. J. S. Lee, R. Saroha, S. H. Oh, D. H. Shin, Y. C. Kang, S. M. Jeong, J. K. Kim*, and J. S. Cho*, "Rational design of perforated bimetallic (Ni, Mo) sulfides/N-doped graphitic carbon composite microspheres as anode materials for superior Na-ion batteries", (2021) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
118. R. Saroha, J.-H. Ahn, J. S. Cho*,"A Short Review on Dissolved Lithium Polysulfide Catholytes for Advanced Lithium-Sulfur Batteries", (2020) (Submitted)
Nano Composite Materials Lab.
Prof. Jung Sang Cho
Since 2016.09
Department of Engineering Chemistry, Chungbuk National University, Republic of Korea
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Synthesis Process
Synthesis Process
Spray pyrolysis
Electrospinning
Desktop Spray dryer
Spray dryer(Pilot Scale)
Autoclave
Precipitation Process
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Analysis
Analysis
TEM
FE-SEM
Pt coater
XRD
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Battery cycler
Zetasizer
TGA
DSC
EIS
FT-IR
EA
BET
Contact Angle Meter
Rotating Ring Disk Electrode(RRDE)
Electrode Resistance
Meter
UV-Vis
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Others
others
Homogenizer
Roll press
Centrifuge
Thinky mixer
Ball mill
Bath Sonicator
Probe Sonicator
Box Furnace
Oven
Freeze Dryer
Glove box
Tube Furnace
Vacuum oven
Puncher
Dry Room
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Dry Room
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