Abdelhamid, Z., H. B. Hassan, and M. Soltan, "Electrodeposition of Ni-W and Ni-W-P films using a pulse current technique and their application for hydrogen evolution in an acidic solution", Anti-Corrosion Methods and Materials, vol. 67, issue 1, pp. 38, 2020. anticorrosion_paper_2020.pdf
Hamid, A. Z., H. B. Hassan, M. A. Hassan, H. M. Mourad, and S. Anwer, "Deposition, Characterization, Performance of Cadmium Sulfide Quantum Dots Thin Films Using SILAR Technique for Quantum Dot Sensitized Solar Cell Applications", Key Engineering Materials, vol. 835, pp. 374, 2020.
Mohamed, A. M., A. A. E. O. Naga, T. Zaki, H. B. Hassan, and N. K. Allam, "Bimetallic Co−W−S Chalcogenides Confined in N,S-Codoped Porous Carbon Matrix Derived from Metal−Organic Frameworks for Highly Stable Electrochemical Supercapacitors", Applied Energy Materials, vol. 3, issue 8, pp. 8064, 2020.
Mohamed, A. M., M. Ramadan, N. Ahmed, A. A. O. ElNaga, H. H. Alalawy, T. Zaki, S. A. Shaban, H. B. Hassan, and N. K. Allam, "Metal–Organic frameworks encapsulated with vanadium-substituted heteropoly acid for highly stable asymmetric supercapacitors", Journal of Energy Storage, vol. 28, pp. 101292, 2020. paper_1.pdf
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Hamid, A. Z., H. B. Hassan, M. A. Hassan, and A. S. M. Hussein Mourad, "Effect of Cadmium Sulfide Quantum Dots Prepared by Chemical Bath Deposition Technique on the Performance of Solar Cell", Egyptian Journal of Chemistry, vol. 62, issue 9, pp. 1575 - 1585, 2019. ejchem_volume_62_issue_9_pages_1575-1585_2019.pdf
application/pdf iconejchem_volume_62_issue_9_pages_1575-1585_2019.pdf
Tammam, R. H., and H. B. Hassan, "Enhancement of Urea Electrooxidation on PbO2-Ni/C and Bi2O3-Ni/C Nanocomposites in Alkaline Medium", Journal of The Electrochemical Society,, vol. 166, issue 12, pp. F729-F745, 2019. urea_paper_ecs_hanaa-reham_2019.pdf
Hassan, H. B., A. Z. Hamid, and R. M. El‐Sherif, "Electrooxidation of methanol and ethanol on carbon electrodeposited Ni–MgO nanocomposite", Chinese Journal of Catalysis, vol. 37, issue 4, pp. 616-627, 2016. Abstractni-mgo_j_chinese_catalysis.pdfWebsite

Ni–MgO nano‐composites were prepared on carbon anodes by electrodeposition from a nickel
Watts bath in the presence of fine MgO reinforcement particles. Their performance as electrocatalysts
for the oxidation of methanol and ethanol in alkaline medium was investigated and compared
with that of carbon coated pure Ni (Ni/C). The chemical composition, phase structure, and surface
morphology of the deposited nano‐composites were studied by energy dispersive X‐ray spectroscopy,
X‐ray diffractometry, and scanning electron microscopy, respectively. Different electrochemical
techniques were used to estimate the catalytic activity of the prepared electrocatalyst anodes,
including cyclic voltammetry (CV), chronoamperometry, and electrochemical impedance spectroscopy
(EIS). The Ni/C electrocatalyst alone exhibited remarkably low catalytic activity and poor
stability toward the electrooxidation process. The inclusion of MgO significantly promoted the catalytic
activity of the Ni catalyst for the alcohol electrooxidation and enhanced its poisoning resistance.
The EIS results confirmed those of CV and revealed a lower charge transfer resistance and
enhanced roughness for the Ni–MgO/C nano‐composite electrodes compared with those of Ni/C.

Hassan, H. B., A. Z. Hamid, and M. Hassan, "Synthesis and performance of Ni-P-TiCN composite coatings on Al substrate", Surface and interface anaysis, vol. 46, pp. 512-520, 46- 2014. article..pdf1_.pdf
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