About
I am Sadiq H. Khoreem, a researcher and scholar in the field of Materials Science with a focus on the synthesis, structural optimization, and functional evaluation of ferrite and oxide-based nanomaterials. My work explores how ion substitution and nanostructuring improve electrical, dielectric, optical, and magnetic performance, with emerging applications in energy storage, electronics, and biomedical fields.
I am affiliated with Al-Razi University β Yemen, and I actively contribute to scientific publishing as an editorial board member and reviewer in international journals. I aim to advance research in nanomaterial development for industrial and medical innovation.
Skills & Expertise
Nanomaterials Synthesis πΉ Ferrite-based Nano-structures πΉ XRD
FTIR & UV-Vis Spectroscopy πΉ Magnetic & Dielectric Property Evaluation πΉ Structural and Morphological Characterization πΉ Scientific Writing & Publication πΉ Peer-Review & Journal Editorial Roles πΉ Research Design & Data Interpretation
Research Interests
No research interests added yet.
Connect With Me
Experience
Researcher & Academic Member
Al-Razi University, Sanaβa β Yemen
Materials Science Division
β’ Research in ferrite-based nanomaterials, structural & dielectric optimization
β’ Participation in academic teaching, research supervision & scientific activities
Education
Sanaβa University
Conferences & Seminars (2)
The 5th International Electronic Conference on Applied Sciences
Certificate of Participation
This certificate is hereby presented to the attendee
named below in recognition of their active participation.
Sadiq Khoreem
the 15th International Conference on Advanced Materials and Engineering Materials (ICAMEM 2026)
No descriptions
Certificates & Licenses (1)
Certificate of Participatns
Nanoelectronic Semiconductor device.Molecular electronics.
Graphene & other 1D-2D Materia,Material Science & Chemistry.
Spintronics device,Batteries & Energy storage,Phonon & Heat transport.
Calculation of following output of crystal structure/device structure:-Density of State, Effective potential. Total energy, Band structure. Charge, Hessian, Phonon Band structure. Electron Density, Potential, Transchennel.Eigen State, Full band structure, Effective Mass. Complex Bandstrucure, ZT Phonon Density of state, Phonon full band structure, Phonon Trans channel, Modulus, ZT. Transmission, Photo current, IV Curve, Charge, Electron density, Potential, Conductance, Thermoelectric current, Total Energy, Scattering State, Phonon properties, RAMAN properties and Optical Properties, DFPT implementation (e.g., dielectric tensor, dynamical matrix)
Professional Memberships (2)
International Organization for Academic and Scientific Development
Country: India
International Society of Electrochemistry
Country: Algeria
Publications (3)
The barium hexaferrite magnetic materials Mn-doped BaZn1+x Mnx Fe12-2x O19 (x = 0.4, 0.8,
1.2, 1.6, and 2) were prepared using the ceramic method. The powder samples ferrite were subjected
to XRD, F...
This work investigates the effects of CoClβ doping on the structural, optical, and impedance characteristics of PEMA/PMMA blends for the advancement of sophisticated polymeric multifunctional material...
Our research explores the temperature-dependent electrical and dielectric behavior of Zn-doped BaNiβββZnβFeββOββ W-type hexaferrites, synthesized via the ceramic route and measured across 1β100 kHz an...
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