Research and Development of Thallium Nitride Nanorods (Ta3N5-NRs) for CO2 reduction Photoreactors

Comparative energy and exergy analysis of ortho-para hydrogen and non-ortho-para hydrogen conversion in hydrogen liquefaction (2024)
Journal Article
Ahmad, A., Oko, E., & Ibhadon, A. (2024). Comparative energy and exergy analysis of ortho-para hydrogen and non-ortho-para hydrogen conversion in hydrogen liquefaction. International Journal of Hydrogen Energy, 78, 991-1003. https://doi.org/10.1016/j.ijhydene.2024.06.368

This study reports the comparative energy and exergy analysis of ortho-para hydrogen and non-ortho-para hydrogen conversion in hydrogen liquefaction process. Two cases were simulated, case A – hydrogen liquefaction with ortho-parahydrogen conversion... Read More about Comparative energy and exergy analysis of ortho-para hydrogen and non-ortho-para hydrogen conversion in hydrogen liquefaction.

Effect of multi-interface electron transfer on water splitting and an innovative electrolytic cell for synergistic hydrogen production and degradation (2024)
Journal Article
Yuan, X., Hao, W., Teng, Y., Zhang, H., Han, C., Zhang, X., Li, Z., Ibhadon, A. O., & Teng, F. (2024). Effect of multi-interface electron transfer on water splitting and an innovative electrolytic cell for synergistic hydrogen production and degradation. Chemosphere, 356, Article 141929. https://doi.org/10.1016/j.chemosphere.2024.141929

The cleaning and utilization of industry wastewater are still a big challenge. In this work, we mainly investigate the effect of electron transfer among multi-interfaces on water electrolysis reaction. Typically, the CoS2, Co3S4/CoS2 (designated as C... Read More about Effect of multi-interface electron transfer on water splitting and an innovative electrolytic cell for synergistic hydrogen production and degradation.

Boosting hydrogen production of uniform CuCo-ZIF nanododecahedrons by bimetal node and glycerol (2023)
Journal Article
Wang, Q., Teng, Y., Ma, B., Zhang, X., Yuan, X., Li, Z., Jiang, W., Teng, F., Ruan, W., & Ibhadon, A. O. (2023). Boosting hydrogen production of uniform CuCo-ZIF nanododecahedrons by bimetal node and glycerol. Materials Today Chemistry, 28, Article 101359. https://doi.org/10.1016/j.mtchem.2022.101359

Compared with fossil fuels reforming to hydrogen, electrolytic water to hydrogen is highly energy-intensive. It is still a big challenge to decrease the cost of electrolytic water to hydrogen. Herein, we investigate the electrocatalytic activity of u... Read More about Boosting hydrogen production of uniform CuCo-ZIF nanododecahedrons by bimetal node and glycerol.

Boosting hydrogen production in ultrathin birnessite nanosheet arrays-based electrolytic cell by glycerol and urea oxidation reactions (2022)
Journal Article
Ruan, W., Yuan, C., Teng, F., Liao, H., & Ibhadon, A. O. (2022). Boosting hydrogen production in ultrathin birnessite nanosheet arrays-based electrolytic cell by glycerol and urea oxidation reactions. Materials Today Chemistry, 26, Article 101086. https://doi.org/10.1016/j.mtchem.2022.101086

It is still a big challenge to develop an innovative strategy to overcome sluggish oxygen evolution reaction (OER). Herein, ultrathin birnessite@nickel foam nanosheet array (KMO@NF) with oxygen vacancy (VO) is prepared by an in-situ growth method. KM... Read More about Boosting hydrogen production in ultrathin birnessite nanosheet arrays-based electrolytic cell by glycerol and urea oxidation reactions.

Promoted N[triple bond]N activation by oxygen and boosted ammonia production over Bi4O5Br2 (2021)
Journal Article
Yuan, C., Lu, Z., Jiang, W., Ibhadon, A. O., & Teng, F. (2021). Promoted N[triple bond]N activation by oxygen and boosted ammonia production over Bi4O5Br2. Molecular Catalysis, 515, Article 111913. https://doi.org/10.1016/j.mcat.2021.111913

Nitrogen photoreduction method is recognized as a safe, environmentally friendly and sustainable technology for ammonia production. For this method, nevertheless, it is a big challenge to efficaciously activate the N[tbnd]N triple bond. In this work,... Read More about Promoted N[triple bond]N activation by oxygen and boosted ammonia production over Bi4O5Br2.