Ibrahim Mahariq
- Last known institution:
- Gulf University for Science & Technology
- ORCID:
- 0000-0002-7222-3014
8
h-index
3
i10-index
237
Citations
82
Works
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- Publications
- Citations
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Most-cited works
- Characteristics of unsteady thermo-bioconvection chemical reactive stagnation point flow of trihybrid nanofluid around rotating sphere with Oxytactic Microorganisms202411 citations
- Boosting photocatalytic H2O2 production and non-biodegradable ofloxacin removal via a novel Ti3C2 MXene nanosheet-supported BiVO4/InVO4 Z-scheme heterojunction: Optimization and mechanism insights202511 citations
- Water process/treatment by a S-scheme Fe2O3/TiO2 heterojunction photocatalyst for excellent antibiotic degradation/CO2 reduction/H2 production; process optimization and mechanistic insights20248 citations
- Characteristics of elastic deformation on Boger hybrid nanofluid using modified Hamilton–Crosser model: a local thermal nonequilibrium model20258 citations
- Thermophoretic particle deposition in thermo-bioconvection flow of diamond-SiC-Co₃O₄/water-based trihybrid nanofluid with oxytactic and gyrotactic microorganisms: biotechnological applications20257 citations
- Novel S-scheme WO3/ZnO-modified g-C3N4 heterojunction for optimizing norfloxacin photodegradation condition via DoE: Synthesis, characterization, and mechanism evaluation20247 citations
- Construction of a novel Fe₂O₃-loaded g-C₃N₄ electrodes for high-energy and sustainable asymmetric hybrid supercapacitors20256 citations
- A comparative study of two-phase flow of an infusion of gyrotactic microorganisms and dust particles in trihybrid nanofluid with melting phenomena and Soret–Dufour effects20246 citations
- Scrutinization of local thermal non-equilibrium effects on stagnation point flow of hybrid nanofluid containing gyrotactic microorganisms: a bio-fuel cells and bio-microsystem technology application20245 citations
- Comparison study of modified and classical Hamilton–Crosser models for electrophoretic and thermophoretic particle deposition in stagnation point flow of diamond –SiC–Co3O4/diathermic oil-based trihybrid nanofluid20245 citations