Sungjin Cho

TitleAssistant Professor

DepartmentJoint School of Nanoscience and Nanoengineering

Phone336-285-2857

Emailscho1@ncat.edu

Websitewww.sungjincho.com

OfficeJoint School of Nanoscience and Nanoengineering
Room: 208H

1601 East Market Street
Greensboro, NC 27411

Sungjin Cho

Education

Ph D: Electrical/computer Engineering, Marquette University, 2009

MS: Chemical Engineering, Hongik University, 2001

BS: Chemical Engineering, Myongji University, 1998


Research Interests

Advanced Energy Storage Material and Device


Recent Publications

Alaboina,  Pankaj  ( 2017).  “Mechanically Prelithiated Silicon Nano Alloy as Highly Engineered Anode Material.  ( 2017,  ).   Electrochemica Acta.

Cho,  Sungjin  ( 2017).  Nanoprocess and Nanoscale Surface Functionalization on Cathode Materials for Advanced Lithium-Ion Batteries.    Nanoscale (RSC).

Uddin,  Md Jamal  Alaboina,  Pankaj  Zhang,  Lifeng  Cho,  Sungjin  ( 2017).  A low-cost, environment-friendly lignin-polyvinyl alcohol nanofiber separator using a water-based method for safer and faster lithium-ion batteries.  ( 223,  pp. 84-90).   Materials Science and Engineering: B.

Cho,  Sungjin  ( 2017).  A low-cost, environment-friendly lignin-polyvinyl alcohol nanofiber separator using a water-based method for safer and faster lithium-ion batteries.    Materials Science and Engineering B.

Cho,  Sungjin  ( 2017).  Nanostructured Advanced Cathode Materials Synthesis for Lithium-Ion Batteries.    Materials Today Energy.

Cho,  Sungjin  ( 2017).  Exploring Lithium Deficiency in Layered Oxide Cathode for Li-ion Battery.” Advanced Sustainable Systems.    Advanced Sustainable Systems.

Cho,  Sungjin  ( 2017).  Engineering and Optimization of Silicon-Iron-Manganese Nano Alloy Electrode for Enhanced Lithium-ion Battery.    Nano-Micro Letters.

CHO,  SUNGJIN  Alaboina,  Pankaj  Cho,  Jongsoo  ( 2017).  Engineering and Optimization of Silicon-Iron-Manganese Nano Alloy Electrode for Enhanced Lithium-ion Battery.    Springer.

CHO,  SUNGJIN  CHO,  JONGSOO  ( 2017).  Ex-situ Investigation of Anisotropic Interconnection in Silicon-Titanium-Nickel Alloy Anode Material..    Journal of the Electrochemical Society.

CHO,  SUNGJIN  Uddin,  Md-Jamal   Alaboina,  Pankaj  ( 2017).  Review of Nanotechnology for cathode material in battery.  EMERGING NANOTECHNOLOGIES IN RECHARGABLE ENERGY STORAGE SYSTEMS    Elsevier.

CHO,  SUNGJIN  ( 2017).  In Situ Engineering of the Electrode–Electrolyte Interface for Stabilized Over-lithiated Cathodes.  ( 1604549,  ).   Advanced Materials.

CHO,  SUNGJIN  Uddin,  Md-Jamal  ( 2016).  High-molecular-weight polyvinylidene difluoride binder for high capacity cathodes.    SPE Plastics Research Online.

Alaboina,  Pankaj  Uddin,  Md-Jamal  Cho,  Sungjin  ( 2016).  Nanoscale Porous Lithium Titanate Anode for Superior High Temperature Performance.    ACS Applied Materials & Interfaces.

CHO,  SUNGJIN  Uddin,  Md-Jamal  ( 2016).  A suspension polymerized polyvinylidene difluoride binder for high capacity LiNi0.6Mn0.2Co0.2O2: Rheological behavior.  In Dr. Alan J. Lesser     Polymer Engineering & Science.

CHO,  SUNGJIN  ( 2014).  Structural changes and thermal stability of charged Li1-δNixMnyCozO2 cathode materials studied by combined in situ time-resolved XRD and mass spectroscopy.  In ACS  ( 24,  6,  pp. 22594-22601).   ACS Applied Materials & Interfaces.