Official Web of the Department of Chemical Engineering -ITS
WORK LOCALLY, THINK GLOCALLY
The field of chemical engineering has broadened from the traditional one, that typically based on petroleum and petrochemical industries, to be an interdisciplinary area. We aim to advance chemical engineering education through research on electrochemical engineering and synthesis of new functional materials derived from local natural resources such as lignocellulose biomass.
FASCINATING ELECTROCHEMICAL ENGINEERING AND EXCITING FUNCTIONAL MATERIALS
The research interests of the Electrochemical Engineering Laboratory range from synthesis and characterization of new electrode materials to to the design of industrial electrochemical reactors. Research in our group centers around nanoparticles and nanostructure porous materials derived from biomass and natural resources for their applications in electrochemical energy storage and conversion technology. Read more
STUDENT OPPORTUNITIES!
Are you interested in obtaining master 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
Join us! More information
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 esterification, 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
Preparation of rGO/MnO2 Composites through Simultaneous Graphene Oxide Reduction by Electrophoretic Deposition | ACS Omega 7(8) 6760-6767(2022)
High-performance electrocatalyst made from lignosulfonate nanofiber composited with manganese dioxide without carbonation process | Advanced Powder Technology 33(5) 103572 (2022)
Preparation of Activated Carbon from Alkali Lignin using Novel One-Step Process for High Electrochemical Performance Application | Arabian Journal of Chemistry 14(6) 103162 (2021)
NEWS! AND ARTICLES
Kebangkitan baterai sodium ke dunia baterai
Oleh: Heru Setyawan Teknologi sodium-ion adalah siap, murah dan aman, tetapi dapatkah teknologi ini menggantikan lithium-ion? Alex Scott Ketika mengikuti seminar internasional tahun lalu di India, salah satu pembicara kunci manyampaikan salah satu pertanyaan yang menarik: “Mengapa berpaling dari lithium?” Dalam edisi terbaru majalah C&EN bulan Mei (vol. 100, no. 19), mereka mengangkat isu tentang […]
Baterai timbal-asam: Kimia (Karakteristik dan sifat asam sulfat)
Oleh: Heru Setyawan Baterai timbal-asam: Karakteristik umum Baterai timbal-asam: Sejarah Baterai timbal-asam: Data pembuatan dan pemakaian baterai Baterai timbal-asam: Kimia (Karakteristik umum) Baterai timbal-asam: Kimia (Karakteristik tegangan sirkuit terbuka) Baterai timbal-asam: Kimia (Kehilangan polarisasi dan hambatan) Baterai timbal-asam: Kimia (Pemakaian sendiri) Karakteristik dan sifat utama elektrolit asam sulfat disajikan pada Tabel 1. Sebagaimana terlihat pada Tabel 1, titik beku larutan asam […]
Baterai timbal-asam: Kimia (Pemakaian sendiri)
Oleh: Heru Setyawan Baterai timbal-asam: Karakteristik umum Baterai timbal-asam: Sejarah Baterai timbal-asam: Data pembuatan dan pemakaian baterai Baterai timbal-asam: Kimia (Karakteristik umum) Baterai timbal-asam: Kimia (Karakteristik tegangan sirkuit terbuka) Baterai timbal-asam: Kimia (Kehilangan polarisasi dan hambatan) Baterai timbal-asam: Kimia (Karakteristik dan sifat asam sulfat) Kesetimbangan reaksi elektroda lazimnya ke arah pemakaian karena, secara termodinamika, keadaan dipakai adalah lebih stabil. Laju pemakaian […]
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.
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
Tantular Nurtono
Dr., B.Eng. (Institut Teknologi Sepuluh Nopember); M.Eng. (Hiroshima University)
Research: CFD, fluid dynamics, mixing
MEET THE ALUMNI
Elkimkor mengajarkan banyak hal. Tidak hanya tentang nano teknologi dan nano partikel. Tapi lebih dari itu, bagaimana bekerja sama dengan orang dari berbagai macam level, dari background yang berbeda-beda dengan karakternya masing-masing. Very grateful, karena meskipun tidak ada partner skripsi dan tugas akhir tapi di sini semua saling membantu, bekerja sama dalam tim, tidak ada lagi saya atau kamu tapi adanya kami. Benar-benar nano-nano. Yang paling berkesan adalah ketika nungguin uji-uji sampai sahur, berangkat pagi pulang pagi, sahur di lab, tapi tetep fun dan happy. Pertama kali, nge run bikin graphene di ruang asam, terkesima lihat asap-asap merah hasil reaksi. Nge print di lab sampai pagi dan seketika lab jadi kayak percetakan. Setia nunggu Bapak dan Ibu untuk asistensi. Pernah pulang lebih cepet dan baru naik 3 anak tangga kos , dapat info WA grup, “Bapak di lt 3”. Seperti panggilan alam, yang udah ditunggu-tunggu akhirnya…auto nge gas motor dan lari-lari dari parkiran Tekkim sampai lab lt 3. Di Elkimkor semuanya sangat terstruktur dan jelas. Tentang progress, sangat membantu karena bisa nyicil PPT dari awal dan latihan presentasi setiap bulan demi masa depan sidang yang cemerlang. Banyak sharing ilmu, tidak hanyak berkutat pada apa topik penelitian kita tapi juga belajar apa yang sedang dikerjakan kelompok lain. Prof Heru dan Bu Widi begitu sabarnya membimbing kami semua. Terima kasih, Pak, Bu. Rindu gathering bersama Elkimkor crew. Semoga Elkimkor tetap jadi panutan, terdepan dan semakin jaya. Satu Hati Satu Elkimkor. Hidup Elkimkor Hidup ITS !
Kenangan yang paling berkesan yaitu saat mengerjakan penelitian malam hari dan teman teman lab yang sangat menyenangkan, enak untuk diajak diskusi
Lab yg sangat menyenangkan, nyaman, dengan dosen-dosen pembimbing yg luar biasa. Memberikan kesan tahun akhir yg tak terlupakan.
Baca lainnya: Apa Kata Alumni…
Bagi Alumni Lab Elkimkor, mohon isi formulir alumni (bagi yang belum): Formulir Alumni Elkimkor
Elkimkor 