Research output
Publications
Peer-reviewed publications, preprints, and academic papers.
Trusted academic portfolio
Valorization of waste seed oil from Cupressus macrocarpa L. for biodiesel production via green-synthesized iron oxide nanoparticles: A sustainable approach toward decarbonization
Emmanuel, O.; Ahmad, M.; Duduyemi, A.; Ahmad, S.; Khan, A.; Esiaba, R.; Elekwachi, C.
Next Energy
Demonstrates biodiesel production from Monterey cypress waste seed oil using green-synthesized iron oxide nanoparticles as catalyst.
View details →Advances in carbon dioxide capture and conversion technologies: Industrial integration for sustainable chemical production
Emmanuel, O.; Ezeji, T. C.
Next Sustainability
Reviews advances in CO₂ capture and conversion technologies with emphasis on industrial integration for sustainable chemical production and decarbonization.
View details →Pure or blend: Microbial cultures in the race to optimize butanol production
Emmanuel, O.; Ezeji, T. C.
Renewable and Sustainable Energy Reviews
Critical review comparing pure and blended microbial culture strategies for optimizing biobutanol production from lignocellulosic and waste-derived substrates.
View details →Elucidating the potential of non-edible milkweed seed oil for biodiesel production using green pod-derived nano-catalysts
Emmanuel, O.; Micheal, U.; Zafar, M.
Waste Management Bulletin
Explores non-edible milkweed seed oil as a biodiesel feedstock using green pod-derived nanocatalysts.
View details →Utilization of waste seed oil from Cestrum nocturnum as a novel source for cleaner production of biodiesel using green nano-catalyst of antimony oxide
Rozina; Ahmad, M.; Ezeji, T. C.; Emmanuel, O.; Qureshi, N.; Khan, A.
Fuel
Biodiesel production from Cestrum nocturnum waste seed oil using green-synthesized antimony oxide nanoparticles.
View details →Exploring the synergy of nanomaterials and microbial cell factories during biohydrogen and biobutanol production from different carbon sources
Rozina; Emmanuel, O.; Ezeji, T. C.
Sustainable Chemistry for the Environment
Investigates how nanomaterials synergize with microbial cell factories to enhance biohydrogen and biobutanol yields from diverse carbon substrates.
View details →