Journal of Materials Science: Materials in Electronics

Aims & Scope

The Journal of Materials Science: Materials in Electronics was founded in 1990 and since then it has grown into a major peer-reviewed international journal.

It publishes experimental papers on materials in modern electronics, optoelectronics and photonics, with a broad but in-depth coverage.

The scope of the journal includes the synthesis, growth and processing of new materials (such as compounds and alloys), structural studies by various experimental techniques, characterization of microstructure, structure-property relationships, electrical, optical, dielectric and magnetic properties.

The Journal presents materials-related papers in newly developing fields such as low-dimensional structures and devices, spintronic materials and structures, topological insulators, energy applications (e.g. energy harvesting and storage, optoelectronics, solar cells, photocatalysis, green photonics), solid-state ionics, thermoelectrics and phononics, materials for heterogeneous integrated circuit applications, new materials for memory/storage applications, glasses, glass-ceramics and linear/non-linear crystal materials and lasers, high Tc superconductors, organic semiconductors, conducting polymers, thick-film materials and new contact technologies, as well as materials used in established electronic and optoelectronic devices and circuits.

Materials related papers are also accepted in the emerging field of quantum technologies, including electronic/spintronic/photonic and related materials systems for quantum entanglement applications, plasmonic materials and sensors, communications and metrology.

View Aims & Scope

---

Metrics & Ranking

Impact Factor

Year	Value
2025	2.8
2024	2.80

Journal Rank

Year	Value
2024	10998

Journal Citation Indicator

Year	Value
2024	20775

SJR (SCImago Journal Rank)

Year	Value
2024	0.529

Quartile

Year	Value
2024	Q2

h-index

Year	Value
2024	106

---

---

Abstracting & Indexing

Journal is indexed in leading academic databases, ensuring global visibility and accessibility of our peer-reviewed research.

• Scopus
• Google Scholar
• Web of Science

---

Subjects & Keywords

Journal’s research areas, covering key disciplines and specialized sub-topics in Biochemistry, Genetics and Molecular Biology, Chemical Engineering, Engineering, Materials Science and Physics and Astronomy, designed to support cutting-edge academic discovery.

---

Most Cited Articles

The Most Cited Articles section features the journal's most impactful research, based on citation counts. These articles have been referenced frequently by other researchers, indicating their significant contribution to their respective fields.

• Metal oxides nanoparticles via sol–gel method: a review on synthesis, characterization and applications

  Citation: 559

  Authors: Mritunjaya, Vivek Kumar, Ranbir

• Ferromagnetism of ZnO and GaN: A Review

  Citation: 511

  Authors: C., F., H.

• Review on application of PEDOTs and PEDOT:PSS in energy conversion and storage devices

  Citation: 469

  Authors: Kuan, Shupeng, Pengcheng, Yijie, Xiang, Donghe, Furkan Halis, Jianyong

• Review on magnetically separable graphitic carbon nitride-based nanocomposites as promising visible-light-driven photocatalysts

  Citation: 380

  Authors: Mitra, Aziz, Shima Rahim

• Thin-film solar cells: review of materials, technologies and commercial status

  Citation: 325

  Authors: Martin A.

• Microwave ferrites, part 1: fundamental properties

  Citation: 320

  Authors: Ãœmit, Yahya, Hadis

• A review of high-temperature electronics technology and applications

  Citation: 283

  Authors: Jeff, Gustavo

• Photo-degradation of organic dyes: simple chemical synthesis of Ni(OH)2 nanoparticles, Ni/Ni(OH)2 and Ni/NiO magnetic nanocomposites

  Citation: 282

  Authors: Seyede Raheleh, Davood, Masoud, Mohammad

• Phase transformations in FeCo – Fe2CoO4/Co3O4-spinel nanostructures as a result of thermal annealing and their practical application

  Citation: 250

  Authors: M. V., A. L., D. I., D. B.

• Parametric optimization and prediction of enhanced thermoelectric performance in co-doped CaMnO3 using response surface methodology and neural network

  Citation: 242

  Authors: Binay Kumar, Digvijay

---