| 1 |
Atef Y. Shenouda, Anton A. Momchilov,
Study on the Electrochemical Performance of Graphene Effect on
Cadmium Oxide in Lithium Battery, International J. Chemical and
Molecular Engineering:, No:8, 14 (2020) 196-200.
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| 2 |
M.G. Moustafa, M.M.S. Sanad, M.Y.
Hassaan, ⦁ NASICON-type lithium iron germanium phosphate glass
ceramic nanocomposites as anode materials for lithium ion batteries,
Journal of Alloys and Compounds 846 (2020) 156338.
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| 3 |
M.M. Ghannam, Z.K. Heiba, M.M.S. Sanad,
M.B. Mohamed, ⦁ Functional properties of ZnMn⦁ 2⦁ O⦁ 4⦁
/MWCNT/graphene nanocomposite as anode material for Li-ion
batteries, Applied Physics A 126 (2020) 126-332.
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| 4 |
Z.K. Heiba, M.M. Ghannam, M.M.S. Sanad,
A.A. Albassam, M.B. Mohamed, ⦁ Structural, optical, and dielectric
properties of nano-ZnMn⦁ 2-x⦁ V⦁ x⦁ O⦁ 4, ⦁ Journal of Materials
Science: Materials in Electronics, 31 (2020) 8946–8962.
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| 5 |
M. M. Moharam, Moustafa M.S. Sanad,
E.M. El-Sayed, Mai. E. Ibrahim, ⦁ Power Saving Electrochemical
Processing of Low Cost MnO⦁ 2⦁ @ Porous Al Electrode for High
Performance Supercapacitors Applications, IOP Conf. Series:
Materials Science and Engineering 762 (2020) 012002.
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| 6 |
M.M.S. Sanad, A.K. Yousef, M.M. Rashad,
A.H. Naggar, A.Y. El-Sayed, ⦁ Robust and facile strategy for
tailoring CoMn⦁ 2⦁ O⦁ 4⦁ and MnCo⦁ 2⦁ O⦁ 4⦁ structures as high
capacity anodes for Li-ions batteries, Physica B: Condensed Matter
579 (2020) 411889.
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| 7 |
S.M. Mohamed, M.M.S. Sanad, M.F.
El-Shahat, T. Mattar, ⦁ Structural, Microstructural and
Electrochemical Studies of Co/Mn Derived Oxides as Protective Layers
for Intermediate Temperature SOFCs, Key Engineering Materials 835
(2020) 353-358.
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| 8 |
H.A. Abdellatif, M.M.S. Sanad, E.M.
Elnaggar, M.M. Rashad, G.M. El-Kady, ⦁ LiMn⦁ 1.5⦁ Ni⦁ 0. 25⦁ Fe⦁ 0.
2⦁ M⦁ 0.05⦁ O⦁ 4⦁ Nanoparticles as a Cathode Material for
Rechargeable Li-Ion Batteries, Key Engineering Materials 835 (2020)
149-154.
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| 9 |
Elsayed, D.M., Abdelbasir, S.M.,
Abdel-Ghafar, H.M., Salah, B.A., Sayed, S.A. Silver and copper
nanostructured particles recovered from metalized plastic waste for
antibacterial applications. Journal of Environmental Chemical
Engineering, 2020, 8(4), 103826.
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| 10 |
Seif El-Nasr, R., Abdelbasir, S.M.,
Kamel, A.H., Hassan, S.S.M. Environmentally friendly synthesis of
copper nanoparticles from waste printed circuit boards. Separation
and Purification Technology, 2020, 230, 115860.
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