Assist. Prof. Dr. Howaida Mansour | Nuclear Research | Best Researcher Award

Faculty Member at Ain Shams university Egypt.

Summary

Dr. Howaida Mansour is a nuclear physicist with extensive teaching and research experience in radiation physics and environmental radioactivity. She holds a Ph.D. from Ain Shams University, Egypt, and currently serves as an Assistant Professor at Qassim University, Saudi Arabia. Dr. Mansour’s research explores radiation dosimetry, shielding using nanomaterials, and hybrid nanocomposites for renewable energy applications. She has authored and co-authored several high-impact journal articles and serves as a peer reviewer and guest editor for international journals.

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Education

• Ph.D. in Nuclear Physics (2010) – Faculty of Women for Arts, Science, and Education, Ain Shams University, Egypt.
  Thesis: “Radioactive, Radionuclide and Gamma Dose Studies of Kaolin and Bauxitic Rock Materials, Sinai, Egypt.”
• M.Sc. in Nuclear Physics (2005) – Faculty of Women for Arts, Science, and Education, Ain Shams University, Egypt.
  Thesis: “Radioactivity, Radionuclide and Gamma Dose Measurements in Various Types of Building Materials.”
• B.Sc. in Physics and Chemistry (2000) – Faculty of Women for Arts, Science, and Education, Ain Shams University, Egypt.

Experience

Dr. Howaida Mansour has over two decades of experience in nuclear physics research, teaching, and academic leadership. Since 2010, she has been an Assistant Professor in the Physics Department at Qassim University, Saudi Arabia, and a Lecturer at Ain Shams University, Egypt. Dr. Mansour has taught a diverse range of undergraduate and graduate courses, including Nuclear Physics, Thermodynamics, Radiation Protection, and Statistical Physics, alongside managing physics laboratories and quality assurance initiatives. She has held significant administrative roles, including serving as a Coordinator for Quality and Accreditation and overseeing academic advising and community service programs at Qassim University.

Her contributions extend beyond teaching, as she actively participates in journal peer reviews for reputed publications, editorial boards, and workshops. She is also a principal investigator and co-investigator for funded research projects focusing on advanced materials for polymer solar cells and hybrid nanocomposites.

Research Interests

• Radiation Physics & Dosimetry: Gamma spectrometry, radiation protection, and ionizing radiation studies.
• Environmental Radioactivity: Analysis of radionuclides and radium detection in building materials.
• Nuclear Materials & Safety: Shielding using nanomaterials, polymer materials, and safety in medical and industrial applications.
• Advanced Materials: Hybrid nanocomposites for solar cells, Monte Carlo simulations, and activation analysis.🏅🎯

Top Noted Publications

Determination of natural radionuclides and mineral contents in environmental soil samples

• Authors: SA Abd El-Azeem, H Mansour
• Journal: Arabian Journal for Science and Engineering
• Volume: 46, Issue: 1, Pages: 697–704
• Year: 2021
• Citation Count: 19
• Description: This study explores the presence of natural radionuclides and minerals in environmental soil samples, assessing their concentrations and implications for radiological safety and environmental monitoring.

Assessment of radiological parameters and metal contents in soil and stone samples from Harrat Al Madinah, Saudi Arabia

• Authors: S Alashrah, A El-Taher, H Mansour
• Journal: MethodsX
• Volume: 5, Pages: 485–494
• Year: 2018
• Citation Count: 19
• Description: This work evaluates the radiological hazards and metal content in soil and stone samples, providing data for environmental safety assessments in the Harrat Al Madinah region of Saudi Arabia.

High-performance one and two-dimensional doped polypyrrole nanostructure for polymer solar cells applications

• Authors: EMFAE Halium, H Mansour, NFH Alrasheedi, AF Al-Hossainy
• Journal: Journal of Materials Science: Materials in Electronics
• Volume: 33, Issue: 13, Pages: 10165–10182
• Year: 2022
• Citation Count: 13
• Description: This paper presents advancements in polymer solar cell performance using doped polypyrrole nanostructures, detailing their one-dimensional and two-dimensional properties for enhanced efficiency.

Physical properties and DFT calculations of the hybrid organic polymeric nanocomposite thin film [P (An+ o-Aph)+ Glycine/TiO2/] HNC with 7.42% power conversion efficiency

• Authors: H Mansour, EMFAE Halium, NFH Alrasheedi, MS Zoromba, …
• Journal: Journal of Molecular Structure
• Volume: 1262, Article: 133001
• Year: 2022
• Citation Count: 10
• Description: The study investigates a hybrid organic polymeric nanocomposite thin film using Density Functional Theory (DFT) calculations, achieving a notable power conversion efficiency of 7.42%.

Distribution of natural radionuclides and their radiological risks on agricultural soil samples collected from Yemen

• Authors: M Taher Hussien, G Salaheldin, H Salaheldin Mohamed, H Mansour
• Journal: Pollution
• Volume: 9, Issue: 1, Pages: 195–210
• Year: 2023
• Citation Count: 9
• Description: This paper examines the distribution of natural radionuclides in agricultural soils from Yemen, highlighting potential radiological risks to ensure soil quality and human safety.

Conclusion