The field of chemical engineering has broadened from the traditional one, that based on petroleum and petrochemical industries, to be an interdisciplinary area. We aim to advance chemical engineering education through advanced research in electrochemical engineering and particle technology by addressing issues on materials processing for energy, biomedical, environmental and agriculture.
We conduct research on synthesis of particles by electrochemical and sol-gel method, coating for corrosion protection and thin film, recovery of valuable materials from solid waste such as silica from bagasse ash and geothermal sludge to be converted into advanced materials, e.g. silica aerogel, amine-grafted silica for CO2 adsorbent, utilization of biomass for advanced functional materials (e.g., coconut shell for graphite and graphene; coconut coir for cellulose aerogels and highly porous carbon aerogel), designing of electrocatalyst for ORR based on oxides of transition metals and metal-free (N-doped carbon), and so on.
P. Nurlilasari et al., “High-throughput production of magnetite nanoparticles prepared by the monopolar arrangement of iron electrodes in water,” Chemical Engineering Science 201, 112-120 (2019). Link.
Apa kata alumni…
Semoga bisa menghasilkan penelitian yang bisa bermanfaat & diaplikasikan bagi masyarakat luas – Meritia Ardiyati (Wisuda September 2012 [S1]) Staf Lingkungan, PT. Petrokimia Gresik
Department of Chemical Engineering
Faculty of Industrial Technology
Institut Teknologi Sepuluh Nopember (ITS)
Kampus ITS Sukolilo, Surabaya 60111, Indonesia