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Research interest: Our group research interest is developing multifunctional low-dimensional boron nanomaterials for (photo)electrocatalysis and as theranostic (therapy + diagnostic) agent. Specifically, our research focused on developing smart nanocarriers to deliver multiple cancer therapeutics (e.g. radio- and immune-) specifically to the cancer site, responsive to intrinsic stimuli to overcome various biological barriers while minimizing systemic toxicity. In the field of catalysis, we are interested in discovering and designing new metal-free catalysts through the investigation of their structure-property relationship.
Cancer Therapy
Cancer Therapy
Developing boron-based nanomaterials for effective cancer treatment via boron neutron capture therapy
Understanding the structure-property relationship of a nanodrug to cancer therapy
Engineering smart nanocarrier for combined therapy
Investigate the assembly and self-assembly of nanoparticle
Catalysis for environmental remediation
Catalysis for environmental remediation
Developing metal borate as a catalyst for an advanced oxidation process
Degradation of plastic
Photoreforming of plastic
Interface Engineering
Interface Engineering
Design and functionalize self-assembled monolayer on interfaces for advanced semiconductor processing
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