Nur Laila Hamidah

Personal Information

Name : Dr.Eng. Nur Laila Hamidah, S.T., M.Sc
NIDN : 0710078802
NIP : 198807102015042001
Position : Assistant Professor (Liaison Officer of Internationalization, DTF, ITS)
Email : 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)

Education

  1. Teknik Fisika (S.T), Institut Teknologi Sepuluh Nopember , Indonesia, 2010.
  2. Graduate Institute of Applied Science and Technology (M.Sc). National Taiwan University of Science and Technology (NTUST), Taiwan, 2013.
  3. Advanced Technology (Dr.Eng). Kumamoto University, Japan, 2020

(Selected) Publications

  1. 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.
  2. 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.
  3. 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
  4. 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.
  5. 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.
  6. 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.
  7. 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.
  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.
  9. 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.
  10. 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