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Comprehensive Investigation of Thermal and Mechanical Loads on Stator Winding Insulation in Non-salient Synchronous Generator under RISC fault (2025)
Journal Article
Sun, K., He, Y.-L., Chen, H.-C., Wu, X.-W., Yang, J.-W., Tang, G., Zhang, F., & Gerada, D. (2025). Comprehensive Investigation of Thermal and Mechanical Loads on Stator Winding Insulation in Non-salient Synchronous Generator under RISC fault. IEEE Transactions on Instrumentation and Measurement, 74, Article 1502017. https://doi.org/10.1109/tim.2025.3542101

Current studies on frequent rotor interturn short circuits (RISC) primarily focus on fault diagnosis. However, the detrimental effect of RISC on the fragile stator winding insulation of synchronous generators is overlooked. Consequently, this article... Read More about Comprehensive Investigation of Thermal and Mechanical Loads on Stator Winding Insulation in Non-salient Synchronous Generator under RISC fault.

Three-dimensional runout characterisation for rotationally symmetric components (2025)
Journal Article
Tompkins, C. G., Todhunter, L. D., Gottmann, H., Rettig, C., Schmitt, R., Wacker, J., & Piano, S. (2025). Three-dimensional runout characterisation for rotationally symmetric components. Communications Engineering, 4(1), Article 19. https://doi.org/10.1038/s44172-025-00354-0

Rotationally symmetric components are ubiquitous to modern devices, and their precision manufacture is necessary to keep costs and manufacture time down, as well as reduce waste and possibly hazardous component failure. Here we present a potential up... Read More about Three-dimensional runout characterisation for rotationally symmetric components.

Atomic force microscopy (AFM) based microstructural and micromechanical analysis of bitumen during ageing and rejuvenation (2025)
Journal Article
Hu, Y., Yin, Y., Sreeram, A., Si, W., Airey, G. D., Li, B., Singh, B., Özdemir, D. K., & Zhou, L. (2025). Atomic force microscopy (AFM) based microstructural and micromechanical analysis of bitumen during ageing and rejuvenation. Construction and Building Materials, 467, Article 140387. https://doi.org/10.1016/j.conbuildmat.2025.140387

Aging deteriorates the performance of bitumen whereas rejuvenation can partially restore these properties. Although the macroscale properties of bitumen ageing and rejuvenation have been well documented, the microscale mechanisms are still not well u... Read More about Atomic force microscopy (AFM) based microstructural and micromechanical analysis of bitumen during ageing and rejuvenation.

Investigation of PWM Techniques for High-Frequency Harmonics Loss Performance in Dual-Three Phase Asymmetrical Machines (2025)
Journal Article
Wang, S., Rivera, M., Golovanov, D., Blissett, J., Moran, J., Davison, P., G., R., Gerada, C., & Wheeler, P. (2025). Investigation of PWM Techniques for High-Frequency Harmonics Loss Performance in Dual-Three Phase Asymmetrical Machines. IEEE Transactions on Industrial Electronics, https://doi.org/10.1109/TIE.2025.3532720

Dual three-phase asymmetrical machines are more sensitive to voltage pulses from pulse width modulation (PWM) compared to conventional three-phase machines. This sensitivity results in substantial current harmonics, which cause increased machine loss... Read More about Investigation of PWM Techniques for High-Frequency Harmonics Loss Performance in Dual-Three Phase Asymmetrical Machines.

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.

One-step calcination strategy of 3D printing CuO–ZnO–ZrO2 catalysts for CO2 hydrogenation using digital light processing (DLP) (2025)
Journal Article
Guan, P., Zhao, Y., Wu, Y., Li, W., Zhang, X., Gao, X., Ou, X., Chai, W. S., He, Y., & Li, H. N. (2025). One-step calcination strategy of 3D printing CuO–ZnO–ZrO2 catalysts for CO2 hydrogenation using digital light processing (DLP). Materials Today Sustainability, 29, Article 101086. https://doi.org/10.1016/j.mtsust.2025.101086

CuO–ZnO–ZrO2 catalyst attracted significant attention for CO2 hydrogenation to methanol. Gyroid-based triply period minimal surface lattice structures feature highly ordered porous networks, which could be used to enhance catalytic performance and ef... Read More about One-step calcination strategy of 3D printing CuO–ZnO–ZrO2 catalysts for CO2 hydrogenation using digital light processing (DLP).

Comparisons of alkali, organosolv and deep eutectic solvent pre-treatments on the physiochemical changes and lignin recovery of oak and pine wood (2025)
Journal Article
Mao, Y., Tarhanli, I., Owen, G., Lee, C. S., Senses, E., & Binner, E. (2025). Comparisons of alkali, organosolv and deep eutectic solvent pre-treatments on the physiochemical changes and lignin recovery of oak and pine wood. Industrial Crops and Products, 226, Article 120614. https://doi.org/10.1016/j.indcrop.2025.120614

Pre-treatment is a crucial and the most energy-intensive step for successful valorisation of lignocellulosic biomass in a biorefinery. This study provides systematic comparisons of the biomass fractionation and physiochemical changes of oak and pine... Read More about Comparisons of alkali, organosolv and deep eutectic solvent pre-treatments on the physiochemical changes and lignin recovery of oak and pine wood.

Technical, economic and lifecycle greenhouse gas emissions analyses of solid sorbent direct air capture technologies (2025)
Journal Article
Lilonfe, S., Rodgers, S., Abdul-Manan, A. F., Dimitriou, I., & McKechnie, J. (2025). Technical, economic and lifecycle greenhouse gas emissions analyses of solid sorbent direct air capture technologies. Carbon Capture Science & Technology, 15, Article 100380. https://doi.org/10.1016/j.ccst.2025.100380

Achieving net zero emissions by 2050 will require the development of cost-effective and CO2-efficient direct air capture (DAC) technology to remove atmospheric CO2. This study presents a comprehensive assessment of five solid sorbents under different... Read More about Technical, economic and lifecycle greenhouse gas emissions analyses of solid sorbent direct air capture technologies.

Microrheology of the cumulus-oocyte matrix using optical tweezers (2025)
Journal Article
Campugan, C., Perrella, C., Lim, M., Tan, T. C., Schartner, E., Arita, Y., Bruce, G. D., Mendonca, T., Wright, A., Dholakia, K., & Dunning, K. (2025). Microrheology of the cumulus-oocyte matrix using optical tweezers. Journal of Physics: Photonics, 7(2), Article 025008. https://doi.org/10.1088/2515-7647/adb360

Optical tweezers have emerged as a powerful, versatile approach for a range of studies in cellular and molecular biology. A particular highlight has been its use for microrheology measurements in miniscule sample volumes. In this study, we demonstrat... Read More about Microrheology of the cumulus-oocyte matrix using optical tweezers.

Local-photon model of the momentum of light (2025)
Journal Article
Waite, G., Hodgson, D., Lang, B., Alapatt, V., & Beige, A. (2025). Local-photon model of the momentum of light. Physical Review A, 111(2), Article 023703. https://doi.org/10.1103/physreva.111.023703

Recently we introduced a local photon approach for modeling the quantized electromagnetic field in position space. Using this approach, we define the momentum of light in this paper as in quantum mechanics as the generator for spatial translation. Af... Read More about Local-photon model of the momentum of light.