Welcome to Repository@Nottingham

The effect of COVID-19 with or without acute kidney injury on inpatient mortality in England - a national observational study using administrative data (2025)
Journal Article
Kolhe, N. V., Fluck, R. J., & Taal, M. W. (in press). The effect of COVID-19 with or without acute kidney injury on inpatient mortality in England - a national observational study using administrative data. BMJ Open,

Dynamic Superficial Dielectric Constant Models and Void Fraction Prediction by Microwave Resonant Cavity for Gas Liquid Flow (2025)
Journal Article
Yang, Y., Liu, M., Liu, J., Xu, Y., Ma, H., Liu, Y., Yuan, C., Hewakandamby, B., & Dimitrakis, G. (in press). Dynamic Superficial Dielectric Constant Models and Void Fraction Prediction by Microwave Resonant Cavity for Gas Liquid Flow. IEEE Transactions on Instrumentation and Measurement,

In the investigation of non-uniform flow measurement utilizing microwave technologies, both the dielectric properties and phase fraction of the flow are crucial factors. This study introduces a new concept of dynamic superficial dielectric constant (... Read More about Dynamic Superficial Dielectric Constant Models and Void Fraction Prediction by Microwave Resonant Cavity for Gas Liquid Flow.

Harnessing MOF-based and derived catalysts for efficient BTEX oxidation: Progress, challenges, and future directions (2025)
Journal Article
Murindababisha, D., Wang, Z., Xiao, Z., Yusuf, A., Chen, G. Z., Li, J., & He, J. (2025). Harnessing MOF-based and derived catalysts for efficient BTEX oxidation: Progress, challenges, and future directions. Journal of Environmental Chemical Engineering, 13(2), Article 115781. https://doi.org/10.1016/j.jece.2025.115781

Metal-organic framework (MOF)-derived catalysts have emerged as promising materials for the catalytic oxidation of BTEX (benzene, toluene, ethylbenzene, and xylene) pollutants due to their high surface area, customizable pore structures, and uniform... Read More about Harnessing MOF-based and derived catalysts for efficient BTEX oxidation: Progress, challenges, and future directions.

A novel radiative cooling system with a dissimilar material-based compound parabolic concentrator for mitigating daytime solar radiation impact (2025)
Journal Article
Dan, Y., Wang, Q., Hu, M., Zhao, D., Pei, G., Su, Y., & Riffat, S. (2025). A novel radiative cooling system with a dissimilar material-based compound parabolic concentrator for mitigating daytime solar radiation impact. Renewable Energy, 244, Article 122622. https://doi.org/10.1016/j.renene.2025.122622

Radiative sky cooling (RC) is a promising passive heat dissipation technology for building energy conservation but suffers from sensitivity to daytime solar radiation and an inherently low cooling power density. To address these challenges, a novel d... Read More about A novel radiative cooling system with a dissimilar material-based compound parabolic concentrator for mitigating daytime solar radiation impact.

Solitary bubbles rising in quiescent liquids: A critical assessment of experimental data and high-fidelity numerical simulations, and performance evaluation of selected prediction methods (2025)
Journal Article
Cioncolini, A., & Magnini, M. (2025). Solitary bubbles rising in quiescent liquids: A critical assessment of experimental data and high-fidelity numerical simulations, and performance evaluation of selected prediction methods. Physics of Fluids, 37(2), Article 021304. https://doi.org/10.1063/5.0253636

Bubbles are ubiquitous in industrial applications and in the natural environment. The dynamics of solitary bubbles rising through quiescent liquids, in particular, underpins the physics of two-phase bubbly flows, which are commonplace in industrial,... Read More about Solitary bubbles rising in quiescent liquids: A critical assessment of experimental data and high-fidelity numerical simulations, and performance evaluation of selected prediction methods.