The Electrochemical Engineering Lab aims to advance chemical engineering education by providing fundamental, theoretical and technological skills to bachelors, masters and doctoral students. The research activities of our group are to develop fundamental understanding of electrochemical processes and electrochemical-related materials technology. This knowledge is brought forward into the group’s teaching, applied research and problem solving for industries.
Our group works with both fundamental and industrially relevant problems important for the continuous development of a research-based chemical engineering education.
STUDENT OPPORTUNITIES!
Are you interested in obtaining a master’s or doctoral degree in chemical engineering? We accept students from industries (master/doctor) with a flexibility doing their project on site. Please contact us with your curriculum vitae.
Former PMDSU Students: Dr. Mar’atul Fauziyah, Dr. Puspita Nurlilasari, Dr. Fahmi, Dr. Riski Nata Utama, Dr. Sekar Tri Wulan Amelia
Join us! More information
Cellulose hydrogel is three-dimensional, water-swollen polymer networks derived from cellulose. They combine the renewability and biodegradability of cellulose with high water content and tunable structure of hydrogels. We have successfully synthesized the hydrogels in the form of membrane and beads. Cellulose hydrogel membranes can act as selective barriers or separation media for many applications including batteries and fuel cells, water and wastewater treatments, wound dressings, etc. In the form of beads, they can be used for adsorption of pollutants, drug delivery systems, etc. 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 an extremely high surface area, >3500 m2/g and large pore volume. Aerogels have many potential applications such as solid acid catalyst for esterification, electrocatalyst in metal-air batteries and fuel cells, and so on. Read more
Magnetite (Fe3O4) and their corresponding ferrite nanoparticles have many potential applications for environment, biomedical, and energy storage and conversion. We proposed 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
Biomass derived N-doped carbon aerogel/NiFe-Prussian blue analogue as robust bifunctional oxygen electrocatalyst for rechargeable zinc-air batteries | Electrochim. Acta, 148766 (2026).
Size-controlled synthesis of spinel nickel ferrite nanoparticles by electrochemical method for metal-air batteries | Electrochem. Commun. 186, 108149 (2026).
Oxygen-rich g-C3N4 quantum dot engineered graphene cathode enabling highly selective 2e− oxygen reduction reaction in a value-added reaction assisted Zn–air battery | J Mat Chem A, 14, 5662 (2026)
NEWS! AND ARTICLES
Guest Lecturer dari UTM Malaysia Kagum dengan Fasilitas dan Riset di Lab Elektrokimia dan Korosi ITS
Pada 3 Juni 2026, dalam rangkaian kegiatan Kuliah tamu di Departemen Teknik Kimia, Institut Teknologi Sepuluh Nopember (ITS), Assoc. Prof. Ts. Dr. Norhaniza Binti Yusof dan Prof. Dr. Lau Woei Jye dari Universiti Teknologi Malaysia (UTM) juga berkesempatan mengunjungi Laboratorium Elektrokimia dan Korosi. Kunjungan tersebut disambut langsung oleh Kepala Lab Elektrokimia dan Korosi, Prof. Heru Setyawan, beserta mahasiswa yang sedang…
Prof. Heru Setyawan di WCPT10: Memberikan Plenary Lecture
Prof. Heru Setyawan minggu lalu diundang sebagai salah satu pembicara plenary lecture pada acara The 10th World Congress on Particle Technology (WCPT10) yang berlangsung pada 11-15 Mei 2026 di Osaka, Jepang. Sejak pertama kali diselenggarakan pada 1986, WCPT telah dilaksanakan setiap 4 tahun, berkembang menjadi platform global untuk kemajuan riset, inovasi dan aplikasi industri dalam…
MEET THE FACULTIES
Heru Setyawan
Dr. (Hiroshima University); M.Eng. (Tokyo Institute of Technology); B.Eng. (Institut Teknologi Sepuluh Nopember)
Research: electrochemical engineering, functional materials, electrocatalyst, porous materials.
Tantular Nurtono
Dr., B.Eng. (Institut Teknologi Sepuluh Nopember); M.Eng. (Hiroshima University)
Research: CFD, fluid dynamics, mixing
Widiyastuti
Dr. (Hiroshima University); M.Eng., B.Eng. (Institut Teknologi Sepuluh Nopember)
Research: particle synthesis, aerosols, functional materials.
Ni Made Intan Putri Suari
M.Eng., B.Eng. (Institut Teknologi Sepuluh Nopember)
Research: electrophoresis, corrosion, photothermal materials
What Alumni Say…
“nge-run” malam-malam, mecahin alat analisa berkali-kali. Tapi alhamdulillah mengesankan dan “Recomended” banget nge-lab di elkimkor. Semoga elkimkor dan teknik kimia ITS semakin jaya.
Terima kasih utk semua stake holder lab Elkimkor yg banyak berjasa dalam membantu saya menyelesaikan penelitian untuk skripsi sampai selesai. Terima kasih juga atas support Prof. Heru sebagai dosen pembimbing yg sangat berjasa sekali dalam membimbing penelitian kami agar selesai tepat waktu dengan hasil yang optimal.
Sebuah pengalaman yang berharga untuk saya pernah bergabung dengan Elkimkor. Semoga ilmu-ilmunya dapat diterapkan dan semakin bermanfaat di kemudian hari
Menjadi bagian dari keluarga Lab Elkimkor Tekkim ITS sungguh menjadi pengalaman yang tak terlupakan. Terima kasih atas semua ilmu dan kebersamaan yang telah diberikan kepada saya.
Baca lainnya: Apa Kata Alumni…
Bagi Alumni Lab Elkimkor, mohon isi formulir alumni (bagi yang belum): Formulir Alumni Elkimkor
Electrochemical Engineering Laboratory 