Talk:Samy El-Shall

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El-Shall, along with Wang and others, presented a simple solution synthesis for quantum dots of metal sulfides, featuring chemical reactions between KBH_₄, sulfur, and metal salts at room temperature in organic solvents.^[1] He also developed a new method of synthesizing polymers by utilizing a laser to vaporize metal targets, adding metal particles to the polymer-formation process.^[2] His group developed a microwave-based technique to make uniform nanowires and nanorods of certain semiconductors. The process involved changing the heat time to control the shape evolution from nanoparticles to nanorods, and eventually to extended nanowires.^[3] His research group also proposed a microwave-assisted method to deposit metal nanoparticles and reduce graphene oxide simultaneously by utilizing reducing agents.^[4]

El-Shall, in collaboration with Abdelsayed and others, reported a photothermal reduction method to obtain reduced graphene oxide (rGO) sheets.^[5] His work established the effectivity of hybrid catalysts made using microwave assisted chemical reduction in catalyzing carbon-carbon coupling (Suzuki, Heck) reactions.^[6] In addition, he also demonstrated the utility of Pd/FE₃O₄/G nanocomposites as catalysts for Suzuki and Heck cross-coupling reactions.^[7] Furthermore, he co-designed a synergistic bimetallic metal organic framework containing copper and cobalt ions using benzene tetraamine and benzene tricarboxylic acid.^[8] HRShami (talk) 10:45, 21 July 2025 (UTC)[reply]

^ Masala, Ombretta; Seshadri, Ram (4 August 2004). "Synthesis Routes for Large Volumes of Nanoparticles". Annual Review of Materials Research. 34: 41–81. Bibcode:2004AnRMS..34...41M. doi:10.1146/annurev.matsci.34.052803.090949. ISSN 1531-7331.
^ "New Process to Produce Special Polymers". Richmond Times-Dispatch. May 10, 1993. p. 20. Retrieved July 16, 2025 – via Newspapers.com.
^ Zhu, Ying-Jie; Chen, Feng (25 June 2014). "Microwave-Assisted Preparation of Inorganic Nanostructures in Liquid Phase". Chemical Reviews. 114 (12): 6462–6555. doi:10.1021/cr400366s. ISSN 0009-2665. PMID 24897552.
^ Georgakilas, Vasilios; Otyepka, Michal; Bourlinos, Athanasios B.; Chandra, Vimlesh; Kim, Namdong; Kemp, K. Christian; Hobza, Pavel; Zboril, Radek; Kim, Kwang S. (14 November 2012). "Functionalization of Graphene: Covalent and Non-Covalent Approaches, Derivatives and Applications". Chemical Reviews. 112 (11): 6156–6214. doi:10.1021/cr3000412. ISSN 0009-2665. PMID 23009634.
^ Huang, Xiao; Qi, Xiaoying; Boey, Freddy; Zhang, Hua (4 January 2012). "Graphene-based composites". Chemical Society Reviews. 41 (2): 666–686. doi:10.1039/C1CS15078B. ISSN 1460-4744. PMID 21796314.
^ Khan, Mujeeb; Tahir, Muhammad Nawaz; Adil, Syed Farooq; Khan, Hadayat Ullah; Siddiqui, M. Rafiq H.; Al-warthan, Abdulrahman A.; Tremel, Wolfgang (15 September 2015). "Graphene based metal and metal oxide nanocomposites: synthesis, properties and their applications". Journal of Materials Chemistry A. 3 (37): 18753–18808. doi:10.1039/C5TA02240A. ISSN 2050-7496.
^ Su, Chunming (15 January 2017). "Environmental implications and applications of engineered nanoscale magnetite and its hybrid nanocomposites: A review of recent literature". Journal of Hazardous Materials. 322 (Pt A): 48–84. Bibcode:2017JHzM..322...48S. doi:10.1016/j.jhazmat.2016.06.060. ISSN 0304-3894. PMC 7306924. PMID 27477792.
^ Wang, Wenjuan; Chen, Di; Li, Fayan; Xiao, Xin; Xu, Qiang (11 January 2024). "Metal-organic-framework-based materials as platforms for energy applications". Chem. 10 (1): 86–133. Bibcode:2024Chem...10...86W. doi:10.1016/j.chempr.2023.09.009. ISSN 2451-9294.

[1] Masala, Ombretta; Seshadri, Ram (4 August 2004). "Synthesis Routes for Large Volumes of Nanoparticles". Annual Review of Materials Research. 34: 41–81. Bibcode:2004AnRMS..34...41M. doi:10.1146/annurev.matsci.34.052803.090949. ISSN 1531-7331.

[2] "New Process to Produce Special Polymers". Richmond Times-Dispatch. May 10, 1993. p. 20. Retrieved July 16, 2025 – via Newspapers.com.

[3] Zhu, Ying-Jie; Chen, Feng (25 June 2014). "Microwave-Assisted Preparation of Inorganic Nanostructures in Liquid Phase". Chemical Reviews. 114 (12): 6462–6555. doi:10.1021/cr400366s. ISSN 0009-2665. PMID 24897552.

[4] Georgakilas, Vasilios; Otyepka, Michal; Bourlinos, Athanasios B.; Chandra, Vimlesh; Kim, Namdong; Kemp, K. Christian; Hobza, Pavel; Zboril, Radek; Kim, Kwang S. (14 November 2012). "Functionalization of Graphene: Covalent and Non-Covalent Approaches, Derivatives and Applications". Chemical Reviews. 112 (11): 6156–6214. doi:10.1021/cr3000412. ISSN 0009-2665. PMID 23009634.

[5] Huang, Xiao; Qi, Xiaoying; Boey, Freddy; Zhang, Hua (4 January 2012). "Graphene-based composites". Chemical Society Reviews. 41 (2): 666–686. doi:10.1039/C1CS15078B. ISSN 1460-4744. PMID 21796314.

[6] Khan, Mujeeb; Tahir, Muhammad Nawaz; Adil, Syed Farooq; Khan, Hadayat Ullah; Siddiqui, M. Rafiq H.; Al-warthan, Abdulrahman A.; Tremel, Wolfgang (15 September 2015). "Graphene based metal and metal oxide nanocomposites: synthesis, properties and their applications". Journal of Materials Chemistry A. 3 (37): 18753–18808. doi:10.1039/C5TA02240A. ISSN 2050-7496.

[7] Su, Chunming (15 January 2017). "Environmental implications and applications of engineered nanoscale magnetite and its hybrid nanocomposites: A review of recent literature". Journal of Hazardous Materials. 322 (Pt A): 48–84. Bibcode:2017JHzM..322...48S. doi:10.1016/j.jhazmat.2016.06.060. ISSN 0304-3894. PMC 7306924. PMID 27477792.

[8] Wang, Wenjuan; Chen, Di; Li, Fayan; Xiao, Xin; Xu, Qiang (11 January 2024). "Metal-organic-framework-based materials as platforms for energy applications". Chem. 10 (1): 86–133. Bibcode:2024Chem...10...86W. doi:10.1016/j.chempr.2023.09.009. ISSN 2451-9294.

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