PACCAR-affiliated faculty, scientists and students present research work at Fall 2018 MRS Meeting

Dr. Misook Min at MSR meetingDr. Misook Min, Research Scientist from PACCAR-Director Kaul’s Research Group, presents her research work in the Beyond-Graphene 2D Materials-Synthesis, Properties and Device Applications Symposium at the MRS meeting that was held in Boston from Nov. 26-30, 2018. The title of Dr. Min’s presentation was “Optoelectronic Properties of Graphene Quantum Dots with Molybdenum Disulfide”

PACCAR-affiliated Faculty, Prof. Wonbong Choi delivers an invited talk in the Advanced Materials and Chemistries for High-Energy and Safe Rechargeable Batteries Symposium.  The title of Prof. Choi’s invited talk was, “High Efficiency Rechargeable Batteries Based on 2D MoS2 Coated Li-Metal and 3D Carbon Nanotubes”

Prof. Wonbong Choi also delivers an oral presentation in the Beyond-Graphene 2D Materials-Synthesis, Properties and Device Applications Symposium, with a talk entitled “Synthesis of Tunable 2D TMDs and their Applications in Opto-Electronics and Rechargeable Batteries”

PACCAR-affiliated Ph.D. student, Mr. Ridwan Hossain from the Electrical Engineering Department, also from the Kaul Research Group, had a presentation entitled, “High-Performance, Flexible, Inkjet Printed Heterostructure Photodetector for Biosensing Applications”

PACCAR-affiliated Ph.D. student, Mr. Eunho Cha, in Materials Science and Engineering advised by Prof. Wongbong Choi, presents in the Advanced Materials and Chemistries for High-Energy and Safe Rechargeable Batteries Symposium with a presentation entitled “Phase Transformed Atomic Layer of MoS2 as Lithium Protective Layer for High Performance Lithium Sulfur Batteries”

PACCAR-affiliated Ph.D. student, Juhong Park, in Materials Science and Engineering also advised by Prof. Wonbong Choi, presents in the Beyond-Graphene 2D Materials-Synthesis, Properties and Device Applications Symposium, with a presentation entitled, “Composition-Tunable Synthesis of Large-Scale Mo1-xWxS2 Alloys with Enhanced Photoluminescence”