Maher Ali Rusho
- Last known institution:
- Lockheed Martin (Canada)
- ORCID:
- 0009-0007-7774-8382
6
h-index
2
i10-index
75
Citations
30
Works
Trends over time
Performance over time
Citation overview
Publications (bars) and citations (line) by year
- Publications
- Citations
Citation history
Publication history
h-index evolution
Cumulative h-index by year
Most-cited works
- Decoration of palladium nanoparticles over Thymus pannonicus extract modified magnetic nanoparticles: synthesis, characterization and evaluation of its catalytic performance in the synthesis of 5-Substituted-1H-tetrazoles202513 citations
- Palladium nanoparticles immobilized on magnetic iron oxide nanoparticles facilitated by Artemisia absinthium extract as an effective nanocatalyst for Heck–Mizoroki coupling reactions202512 citations
- Green synthesized Zinc oxide nanoparticles mediated by Thymus pannonicus extract as a novel catalyst in the reduction of aromatic nitro compounds20259 citations
- Toxicity of nano-CuO and biogenic synthesis of Pd NPs promoted over Artemisia absinthium leaves extract: Exploring its catalytic potential for Suzuki coupling reactions20258 citations
- Design and synthesis of decorated palladium nanoparticles on chitosan-tannic acid modified magnetic nanoparticles and evaluation of its catalytic application in the Heck coupling reactions20257 citations
- Design and decorated gold nanoparticles over the Arabic gum-chitosan hydrogel polymers as a novel catalyst for Sonogashira coupling reactions20256 citations
- Bio-supported of gold nanoparticles over magnetic nanoparticles: Synthesis, characterization and evaluation its catalytic activity for one-pot preparation of pyrano[2,3-d]pyrimidines20255 citations
- Advanced MnNi-P/ZIF8@CNT electrocatalyst for CO2 reduction: Achieving high efficiency, stability, and low energy demand20252 citations
- Investigation of aluminum nitride monolayer with biphenylene network as a potential negative electrode for magnesium ion battery20252 citations
- DFT insights into the adsorption mechanism Mg and storage capacity on the biphenylene monolayer surface for Mg ion batteries20252 citations