dr Muhammad Bilal
Employment
- Profesor uczelni ze stop. nauk. dr at Department of Sanitary Engineering
Keywords Help
- enzyme immobilization
- anaerobic digestion
- arduino
- biocatalysis
- bioethanol clean energy feedstocks alternative process technology sugar
- biosensing nanozyme
- catalytic activity
- chemical engineering
- emerging pollutants
- environmental biotechnology · redox reaction · antibiotics degradation · environmental pollutants · bioremediation · wastewater treatment
Social media
Contact
- muhammad.bilal@pg.edu.pl
Profesor uczelni ze stop. nauk. dr
- Workplace
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Budynek Inż. Chemicz.
room 13 open in new tab - muhammad.bilal@pg.edu.pl
Publication showcase
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Recent applications and future prospects of magnetic biocatalysts
Magnetic biocatalysts combine magnetic properties with the catalytic activity of enzymes, achieving easy recovery and reuse in biotechnological processes. Lipases immobilized by magnetic nanoparticles dominate. This review covers an advanced bibliometric analysis and an overview of the area, elucidating research advances. Using WoS, 34,949 publications were analyzed and refined to 450. The prominent journals, countries, institutions, and...
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Sustainable bioethanol production from first- and second-generation sugar-based feedstocks: Advanced bibliometric analysis
Bioethanol is produced from carbohydrate-containing feedstocks through fermentation. Based on a bibliometric review of studies published between 2012 and 2021, we analyzed those on sustainable bioethanol production. The Web of Science main collection yielded 1647 publications, which were analyzed using VOSViewer, CiteSpace, and ArcMap software. More than half of these publications originated from some Asian countries, corresponding to...
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Proteases immobilized on nanomaterials for biocatalytic, environmental and biomedical applications: Advantages and drawbacks
Proteases have gained significant scientific and industrial interest due to their unique biocatalytic characteristics and broad-spectrum applications in different industries. The development of robust nanobiocatalytic systems by attaching proteases onto various nanostructured materials as fascinating and novel nanocarriers has demonstrated exceptional biocatalytic performance, substantial stability, and ease of recyclability over...
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