Yaser E. Greish

3.1k total citations
99 papers, 2.4k citations indexed

About

Yaser E. Greish is a scholar working on Biomedical Engineering, Biomaterials and Materials Chemistry. According to data from OpenAlex, Yaser E. Greish has authored 99 papers receiving a total of 2.4k indexed citations (citations by other indexed papers that have themselves been cited), including 52 papers in Biomedical Engineering, 34 papers in Biomaterials and 24 papers in Materials Chemistry. Recurrent topics in Yaser E. Greish's work include Bone Tissue Engineering Materials (30 papers), biodegradable polymer synthesis and properties (19 papers) and Gas Sensing Nanomaterials and Sensors (15 papers). Yaser E. Greish is often cited by papers focused on Bone Tissue Engineering Materials (30 papers), biodegradable polymer synthesis and properties (19 papers) and Gas Sensing Nanomaterials and Sensors (15 papers). Yaser E. Greish collaborates with scholars based in United Arab Emirates, United States and Egypt. Yaser E. Greish's co-authors include Paul W. Brown, Saleh T. Mahmoud, Harry R. Allcock, Cato T. Laurencin, Falah Awwad, Amr Amin, Jared D. Bender, Ashraf Ali, Lakshmi S. Nair and H.F. El-Maghraby and has published in prestigious journals such as Advanced Materials, Biomaterials and Scientific Reports.

In The Last Decade

Yaser E. Greish

95 papers receiving 2.4k citations

Author Peers

Peers are selected by citation overlap in the author's most active subfields. citations · hero ref

Author Last Decade Papers Cites
Yaser E. Greish 1.1k 688 676 596 457 99 2.4k
Süleyman Köytepe 800 0.7× 546 0.8× 565 0.8× 821 1.4× 739 1.6× 169 2.8k
Xiaoqiang Li 800 0.7× 892 1.3× 497 0.7× 637 1.1× 355 0.8× 95 2.3k
Narendra Pal Singh Chauhan 621 0.6× 491 0.7× 311 0.5× 622 1.0× 513 1.1× 118 2.3k
Roya Sedghi 771 0.7× 677 1.0× 423 0.6× 605 1.0× 595 1.3× 79 2.7k
Yingying Zhang 691 0.6× 694 1.0× 429 0.6× 895 1.5× 195 0.4× 108 2.6k
Yanbing Wang 1.7k 1.5× 669 1.0× 429 0.6× 1.2k 2.1× 333 0.7× 100 3.7k
Mohsen Taghizadeh 844 0.8× 500 0.7× 387 0.6× 920 1.5× 281 0.6× 43 3.5k
Hang Yao 630 0.6× 449 0.7× 430 0.6× 436 0.7× 213 0.5× 93 2.6k
Meng‐Jiy Wang 1.0k 0.9× 748 1.1× 426 0.6× 322 0.5× 210 0.5× 90 2.6k

Countries citing papers authored by Yaser E. Greish

Since Specialization
Citations

This map shows the geographic impact of Yaser E. Greish's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Yaser E. Greish with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Yaser E. Greish more than expected).

Fields of papers citing papers by Yaser E. Greish

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Yaser E. Greish. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Yaser E. Greish. The network helps show where Yaser E. Greish may publish in the future.

Co-authorship network of co-authors of Yaser E. Greish

This figure shows the co-authorship network connecting the top 25 collaborators of Yaser E. Greish. A scholar is included among the top collaborators of Yaser E. Greish based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Yaser E. Greish. Yaser E. Greish is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Zhu, Shanshan, Keliang Wu, Guihua Meng, et al.. (2025). Dual-interface induced bandgap regulated water-based flexible interactive generator. Chemical Engineering Journal. 511. 161806–161806. 1 indexed citations
2.
Siddig, Lamia A., et al.. (2025). Acetone gas sensor based on chitosan-metal-organic framework mixed matrix membranes for diabetes diagnosis. Carbohydrate Polymer Technologies and Applications. 9. 100661–100661. 1 indexed citations
3.
Dutta, Subhajit, Erlantz Lizundia, Joanna Gościańska, et al.. (2025). MOFs and COFs for Radionuclide and Nuclear‐Waste Treatment. Advanced Materials. 37(52). e18734–e18734. 5 indexed citations
4.
Greish, Yaser E., et al.. (2024). Enhancement of CO2 hydrogenation to formate using formate dehydrogenase immobilized on UiO66 and its derivatives. Green Synthesis and Catalysis. 6(2). 140–156. 2 indexed citations
5.
Munawar, Nayla, et al.. (2024). Antibacterial efficacy of copper-based metal–organic frameworks against Escherichia coli and Lactobacillus. RSC Advances. 14(22). 15821–15831. 26 indexed citations
6.
Ali, Ashraf, Sanjit Manohar Majhi, Lamia A. Siddig, et al.. (2024). Recent Advancements in MXene-Based Biosensors for Health and Environmental Applications—A Review. Biosensors. 14(10). 497–497. 31 indexed citations
7.
Ali, Ashraf, Ahmed Alzamly, Yaser E. Greish, et al.. (2023). Enhancing Hydrogen Sulfide Detection at Room Temperature Using ZIF-67-Chitosan Membrane. Membranes. 13(3). 333–333. 6 indexed citations
8.
Ali, Ashraf, Yaser E. Greish, Lamia A. Siddig, et al.. (2023). Bismuth-Based Metal–Organic Framework as a Chemiresistive Sensor for Acetone Gas Detection. Nanomaterials. 13(23). 3041–3041. 8 indexed citations
9.
Nguyen, Ha L., et al.. (2023). BioMOF-Based Anti-Cancer Drug Delivery Systems. Nanomaterials. 13(5). 953–953. 42 indexed citations
10.
Greish, Yaser E., et al.. (2023). MOF-Based Biosensors for the Detection of Carcinoembryonic Antigen: A Concise Review. Molecules. 28(16). 5970–5970. 26 indexed citations
11.
Baig, Badriya, Soleiman Hisaindee, H. Darwish, et al.. (2023). Development and Evaluation of Crocetin-Functionalized Pegylated Magnetite Nanoparticles for Hepatocellular Carcinoma. Molecules. 28(7). 2882–2882. 14 indexed citations
12.
13.
Ali, Ashraf, et al.. (2022). Organic/Inorganic-Based Flexible Membrane for a Room-Temperature Electronic Gas Sensor. Nanomaterials. 12(12). 2037–2037. 5 indexed citations
14.
Majhi, Sanjit Manohar, Ashraf Ali, Yaser E. Greish, et al.. (2022). Accordion-like-Ti3C2 MXene-Based Gas Sensors with Sub-ppm Level Detection of Acetone at Room Temperature. ACS Applied Electronic Materials. 4(8). 4094–4103. 59 indexed citations
15.
Ali, Ashraf, Yaser E. Greish, Ahmed Alzamly, et al.. (2022). Flexible Cu3(HHTP)2 MOF Membranes for Gas Sensing Application at Room Temperature. Nanomaterials. 12(6). 913–913. 32 indexed citations
16.
Ayesh, Ahmad I., H.F. El-Maghraby, Wajdi Alnoush, et al.. (2022). Tunable Hydroxyapatite/Magnetite Nanohybrids with Preserved Magnetic Properties. Advanced Materials Interfaces. 9(16). 4 indexed citations
17.
Ali, Ashraf, Ahmed Alzamly, Yaser E. Greish, et al.. (2021). A Highly Sensitive and Flexible Metal–Organic Framework Polymer-Based H2S Gas Sensor. ACS Omega. 6(27). 17690–17697. 62 indexed citations
18.
Greish, Yaser E., et al.. (2021). Fabrication and characterization of cellulose acetate-based nanofibers and nanofilms for H2S gas sensing application. Carbohydrate Polymers. 258. 117643–117643. 39 indexed citations
19.
Greish, Yaser E., et al.. (2016). Electrospun polystyrene (PS) nanofibers loaded with polyvinylchloride (PVC) particles for crude oil spill cleanup. Journal of Nanomedicine & Nanotechnology. 1 indexed citations
20.
Bhattacharyya, Subhabrata, S. Lakshmi, Jared D. Bender, et al.. (2004). Preparation of poly[bis(carboxylato phenoxy)phosphazene] non-woven nanofiber mats by electrospinning. 157–163. 6 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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