Postdoctoral Researchers
Currently I am studying about the design of salt additive electrolyte for the high voltage application. In my work, spinel LNMO was chosen as cathode material for the high voltage application lithium-ion battery. In addition, I also investigating the effect of the salt additive electrolyte addition on different spinel LNMO types.
I joined the electrochemical energy storage group in 2017 under the supervision of Professor Fu-Ming Wang and co-advisor Professor Nae-Lih Wu (National Taiwan University). During PhD, my study focused on the synthesis of Nickel-rich cathode material. I’m also working on understanding lithium nucleation on plasma-modified Cu foil while collaborating on the Li-CO2 batteries elaborations.
I am currently in my fifth and half year of Ph.D. study at the Graduate Institute of Applied Science and Technology at NTUST. My research focuses on advancing electrochemical immunosensing methods for detecting CA-125, a biomarker associated with ovarian cancer (OC). Specifically, I am exploring using carbon-based nanomaterials and gold nanoparticles to enhance the sensitivity and accuracy of this diagnostic approach. I am passionate about contributing to the early detection and management of OC through innovative technologies in the field of biomedical engineering. Thank you for your attention, View.
Doctoral Students
I am working on investigating the intricate of the cathode additives and lithium-ion batteries performance through the study of material synthesis, electrochemical characterization and in-situ spectroscopy techniques.
My research is focused on improving the performance of PVDF binder by blending or replacing it with polysiloxane-based polymer electrolyte to enhance adhesion, wettability, and conductivity in the cathode which will increase its lifespan and capacity
I’m currently in my third year of doctoral degree at the Graduate Institute of Applied Science and Technology at NTUST. My research focused on aqueous and non- aqueous organic redox flow batteries. I’m working on enhancing the performance of the redox flow battery by synthesizing new electrolytes and further analyzing their electrochemical redox mechanism through structural analysis.
My research is focusing on the design and development of silicon for anode battery.
I specialize in modification of surface silicon.
I am studying on waste High Energy Density NCA Cathode Recycle and Regeneration.
I’m currently immersed in the fascinating world of redox flow batteries, where I’m focused on optimizing their performance and efficiency. It’s an electrifying journey that holds immense potential for revolutionizing sustainable energy storage.”
Investigation of organic catalysts on Li-CO2 batteries
I am interested in lithium-ion batteries and anodes. I am interested in understanding the surface properties of these anode materials.Currently, I am working on surface modification and synthesis of advanced anode electrodes for lithium-ion batteries.
I am doing research on the electrochemical treatment techniques for cancer and development of biosensors
I am working in Lithium-ion battery field.
I am working in Lithium-ion battery field.
I am working in the Lithium-ion battery field.
I am studying Liquid electrolyte Fluoride-ion batteries for the next generation of energy storage system.
Master Students
I am working on the recycle lithium-ion battery that focused on Li,Ni,Co,Mn elements from death lithium-ion battery.
My research is using 3D-image to analyze porosity and tortuosity of composite cathode for solid state battery
My research is investigating the application of different 3D structural materials in Anode free battery.
My research is focusing on all-solid-state battery and separator-free technology for lithium-ion battery.
I am working at investigation of polymer coating on copper current collector for anode free battery.
Currently I am working on All-solid-state battery
I’m a new student at the Graduate Institute of Applied Science and Technology at NTUST. Currently undergoing training, my focus for future research is exploring various electrolyte variations across different solvents and salt additives to enhance battery performance.
I am studying on investigation of the gas purity effect on Li-CO2 battery
I am work in biosensor group with research topic of combining screen printing technology for biosensor detection of ovarian cancer
My research direction is to use electroplating to separate nickel and cobalt. I like to play basketball. Everyone can play basketball together on Tuesday from 6:30 to 8:30 pm🏀
Email: cxuan1107@gmail.com
Currently undergoing training. Future research may focus on the application of silicon in lithium-ion batteries.
The research direction focuses on CA125 ovarian cancer sensors and the electrical stimulation of cancer cells.
I am working at solvent free free standing electrodes for solid state battery.
Email: wliao9819@gmail.com
Graduated Students
I am currently conducting research on catalysts derived from lithium recovered from battery cathode scraps, with the aim of utilizing them as heterogeneous catalysts for biodiesel synthesis
Currently, I am working on the recycle cathode materials of lithium-ion battery.
CA125 biosensor and nano composite material development