| Name | : | Dr.Eng. Nur Laila Hamidah, S.T., M.Sc |
| NIDN | : | 0710078802 |
| NIP | : | 198807102015042001 |
| Position | : | Assistant Professor (Liaison Officer of Internationalization, DTF, ITS) |
| : | nurlaila@its.ac.id | |
| Laboratory | : | Laboratory of Energy Engineering and Environmental Conditioning |
| ORCID ID | : | https://orcid.org/0000-0003-0777-4095 |
| Personal Website | : | – |
| Reserach Interest | : | 1. Solid polymer electrolyte (SPE) for electrochemical devices, specially: lithium-ion battery |
| 2. The development of electrolyte additive for lithium-ion battery and its understanding on solid | ||
| 2. electrolyte interface. | ||
| 3. The development of graphene oxide nanocomposite and its application in electrochemical | ||
| 3. devices such as gas sensing, gas separation, hydrogen production by electrolysis system, | ||
| 3. lithium-ion battery etc | ||
| 4. Membranelles electrolysis cell for disinfectant production | ||
| Research Page | : | Google Scholar | SINTA | Scopus | ResearchGate |
| Curriculum Vitae | : | (Download) |
Personal Information
Education
- Teknik Fisika (S.T), Institut Teknologi Sepuluh Nopember , Indonesia, 2010.
- Graduate Institute of Applied Science and Technology (M.Sc). National Taiwan University of Science and Technology (NTUST), Taiwan, 2013.
- Advanced Technology (Dr.Eng). Kumamoto University, Japan, 2020
(Selected) Publications
- R.V.C. Rubi, J.G. Olay, P.B.G. Caleon, R.A.F. De Jesus, M.B.L. Indab, R.C.H. Jacianto, M.S. Sabalones, F. dela Rosa, N.L. Hamidah, Photocatalytic Degradation of Diazinon in g-C3N4/Fe(III)/persulfate system under Visible LED Light Irradiation, Appl. Sci. Eng. Progress, 2021 Vol. 14, No. 1, 100-107.
- N. L. Hamidah, M. Shintani, A. S. Ahmad Fauzi , S. Kitamura , E. G. Mission , K. Hatakeyama , M. Sasaki, A. T. Quitain and T. Kida, Electrochemical hydrogen production from humid air using cation-modified graphene oxide membranes, Pure and Applied Chemistry, 2021 ,Vol. 91, No. 1, 1-11.
- A. S. Ahmad Fauzi, N. L. Hamidah, S. Sato, M. Shintani, G. K. Putri, S. Kitamura, K. Hatakeyama, A. T. Quitain, T. Kida, Carbon-based potentiometric hydrogen sensor using a proton conducting graphene oxide membrane coupled with a WO3 sensing electrode. Sensors and Actuators B: Chemical, 2020, 323 , 128678
- N. L. Hamidah, M. Shintani, A. S. Ahmad Fauzi, G. K. Putri, S. Kitamura, K. Hatakeyama, M. Sasaki, A. T. Quitain, T. Kida, Graphene oxide membranes with cerium-enhanced proton conductivity for water vapor electrolysis, ACS Applied Nano Material, 2020, 3, 4292−4304.
- N. L. Hamidah, M. Shintani, A. S. Ahmad Fauzi, E. G. Mission, K. Hatakeyama, A. T. Quitain and T. Kida, Improving the proton conductivity of graphene oxide membranes by intercalating cations, SN Applied Sciences, 2019, 1, 630.
- M. Tesemma, F.-M. Wang, A. M. Haregewoin, N. L. Hamidah, P. Muhammad Hendra, S. D. Lin, C.-S. Chern, Q.-T. Pham and C.-H. Su, Investigation of the Dipole Moment Effects of Fluorofunctionalized Electrolyte Additives in a Lithium Ion Battery, ACS Sustainable Chemistry & Engineering, 2019, 7, 6640–6653.
- N. L. Hamidah, F. M. Wang and G. Nugroho, The understanding of solid electrolyte interface (SEI) formation and mechanism as the effect of flouro‐o‐phenylenedimaleimaide (F‐MI) additive on lithium‐ion battery, Surface Interface Analaysis, 2018, 1–8.
- T. Kida, Y. Kuwaki, A. Miyamoto, N. L. Hamidah, K. Hatakeyama, A. T. Quitain, M. Sasaki and A. Urakawa, Water vapor electrolysis with proton-conducting graphene oxide nanosheets, ACS Sustainable Chemistry & Engineering, 2018, 6, 11753–11758.
- N. L. Hamidah, G. Nugroho and F. M. Wang, Electrochemical analysis of electrolyte additive effect on ionic diffusion for high-performance lithium ion battery, Ionics, 2016.
- G Nugroho, N L. Hamidah, “Solutions of Inhomogeneous Diffusion Equation by the Method of Characteristics Title,” in Lithium-Ion Batteries: Properties, Advantages and Limitations. New York, Nova Science Publishers, Inc. 2019, Ch. 5.
Teaching Courses
| 1 | Termodinamika | 6 | Rekayasa Sistem Konversi dan Konservasi Energi |
| (Thermodynamics) | (Energy Conversion and Conservation System Engineering) | ||
| 2 | Perpindahan Panas dan Massa | 7 | Matematika Rekayasa |
| (Mass and Heat Transfer) | (Advanced Engineering Mathematics) | ||
| 3 | Rekayasa Sistem Kenyamanan Termal | 8 | Teknologi Konversi Energi |
| (Thermal Comfort System Engineering) | (Energy Conversion Technology) | ||
| 4 | Sistem Penyimpanan Energi | 9 | Konservasi Energi |
| (Energy Storage Systems) | (Energy Conservation) | ||
| 5 | Kapita Selekta Energi | 10 | Pemetaan Potensi Energi |
| (Capita Selecta of Energy) | (Energy Potential Mapping) |
Open Position
– Currently no open position
