Electrochemistry & Corrosion Lab

FASCINATING NANOMATERIALS AND EXCITING RESEARCH AREAS

Our research group exploits the utilization of solid wastes and natural resources by processing them to become advanced functional nanomaterials; their unusual structural and surface properties for various applications. Research in our group centers around nanoparticles and nanostructure porous materials since these offer unprecedented level of flexibility and control. The versatility of their composition and structure allows envisioning new applications in energy, environmental, biomedical and agricultural. Read more

Cellulose aerogel has excellent properties due to its very high surface area and large pore volume. We developed a process to manufacture such materials from coir fiber and other abundant natural biomass. The aerogel have many potential applications such as adsorbent for dyes and absorbent for oil spill. It may be carbonized to produce carbon aerogel having extraordinary properties suitable for many applications. Read more

N-doped carbon aerogel possessing honeycomb-like structure of internal pores in individual fibers has been successfully prepared from coir fibers using our proposed method via one-step route of ammonia-urea system. The non-ordered porous carbon aerogel has very high surface area, >3500 m²/g and large pore volume. The aerogels have many potential applications such as as solid acid catalyst for esterifaction, electrocatalyst in metal-air batteries and fuel cells, and so on. Read more

Magnetite (Fe₃O₄) nanoparticles have many potential applications for environment, biomedical, and energy storage and conversion. We proposed been a simple electrooxidation of iron in water. No chemicals other than water are used. Alternating monopolar configuration has been demonstrated to be able to produce high-throughput production of the nanoparticles. The electrochemical reactor is easy to scale-up for mass production. Read more