Zhihang Wang

NameZhihang Wang
Job titleSenior Lecturer in Engineering Materials
Research instituteCollege of Science and Engineering
ORCIDhttps://orcid.org/0000-0002-9961-3346

Research outputs

Functionalized azobenzenes for micellar solar thermal energy storage as a next-generation MOST system

Huang, R., Loch, A., Pincham, A., Smith, A., Seddon, A., Wang, Z. and Adams, D. 2025. Functionalized azobenzenes for micellar solar thermal energy storage as a next-generation MOST system. Communications Chemistry.

Tailor-made solar desalination and salt harvesting from diverse saline water enabled by multi-material printing

Li, J., Zhao, J., Sun, Y., Li, Z., Murto, P., Wang, Z. and Xu, X. 2025. Tailor-made solar desalination and salt harvesting from diverse saline water enabled by multi-material printing. Advanced Materials. https://doi.org/10.1002/adma.202517244

Molecular solar thermal energy storage system based functional devices

Wang, Z. 2025. Molecular solar thermal energy storage system based functional devices. in: Moth-Poulsen, K. (ed.) Molecular Solar Thermal Energy Storage Systems Cham Springer. pp. 169–192

Surfactant-enabled strategy for molecular solar thermal energy storage systems in water

Fernandez, L., Hölzel, H., Ferreira, P., Baggi, N., Moreno, K., Wang, Z. and Moth-Poulsen, K. 2025. Surfactant-enabled strategy for molecular solar thermal energy storage systems in water. Green Chemistry.

Reusable and closed-loop recyclable underwater adhesives via printable multi-dynamic networks

Wang, S., Wu, X., Li, J., Zhao, J., Wang, S., Sun, Y., Wang, Z. and Xu, X. 2025. Reusable and closed-loop recyclable underwater adhesives via printable multi-dynamic networks. Chemical Engineering Journal.

Influence of surfactant–cosurfactant ratios on the morphology of vaterite microparticles in Inverse microemulsions

Hu, M, Wang, K, Zuo, J, Jevric, M, Feng, J, Wang, Z. and Wang, N 2025. Influence of surfactant–cosurfactant ratios on the morphology of vaterite microparticles in Inverse microemulsions. ChemistrySelect. 10 (36). https://doi.org/10.1002/slct.202504254

3D-printed hygroscopic matrices based on granular hydrogels for atmospheric water adsorption and on-demand defogging

Wu, X., Wang, S., Zhao, J., Li, J., Sun, Y., Wang, Z., Murto, O., Cui, H. and Xu, X. 2025. 3D-printed hygroscopic matrices based on granular hydrogels for atmospheric water adsorption and on-demand defogging. Advanced Functional Materials. https://doi.org/10.1002/adfm.202514721

Reversible dual stimuli-responsive polymer coatings with antimicrobial properties for oil–water separation

Wang, N., Wang, H., Wang, K., Zuo, J. and Wang, Z. 2025. Reversible dual stimuli-responsive polymer coatings with antimicrobial properties for oil–water separation. Journal of Water Process Engineering. 77. https://doi.org/10.1016/j.jwpe.2025.108484

Spectrally-tailored hygroscopic hydrogels with Janus interfaces for hybrid passive cooling of solar cells

Li, S., Wang, S., Zhao, J., Wang, Z., Murto, P., Yu, L., Chen, J. and Xu, X. 2025. Spectrally-tailored hygroscopic hydrogels with Janus interfaces for hybrid passive cooling of solar cells. Small. https://doi.org/10.1002/smll.202505647

Kinetic investigations on the fading reaction between MX and SDS at concentrations below and above the critical micellar concentration

Zuo, J., Liu, G., Wang, K., Wang, Z. and Wang, N. 2025. Kinetic investigations on the fading reaction between MX and SDS at concentrations below and above the critical micellar concentration. ChemistrySelect. 10 (22). https://doi.org/10.1002/slct.202501841

Simulation-guided design of solar steam generator arrays for efficient all-cold evaporation under natural sunlight

Shao, K., Li, J., Zhao, J., Wang, S., Lu, Y, Murto, P., Wang, Z. and Xu, X. 2025. Simulation-guided design of solar steam generator arrays for efficient all-cold evaporation under natural sunlight. 17 (7). https://doi.org/10.1021/acsami.5c04498

Synergistic solar-powered water-electricity generation using a 3D-printed heatsink-like device

Li, N., He, J., Li, J., Li, Z., Murto, P., Wang, Z. and Xu, X. 2025. Synergistic solar-powered water-electricity generation using a 3D-printed heatsink-like device. EES Solar. https://doi.org/10.1039/D4EL00041B

Tailor-Made Hygroscopic Photothermal Organogels for Moisture Management and Evaporative Cooling through a 1D-to-3D Design

Wang, Y., Li, S., Li, J., Sun, Y., Li, Z., Murto, P., Wang, Z. and Xu, X. 2025. Tailor-Made Hygroscopic Photothermal Organogels for Moisture Management and Evaporative Cooling through a 1D-to-3D Design. Journal of Materials Chemistry A. 6. https://doi.org/10.1039/D4TA07811J

Photoresponsive Surfactants for Controllable and Reversible Emulsion Systems

Xue, H., Han, Y., Liu, G., Chen, W., Wang, Z. and Wang, N. 2024. Photoresponsive Surfactants for Controllable and Reversible Emulsion Systems. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 705 (1), pp. 1-9. https://doi.org/10.1016/j.colsurfa.2024.135669

Two-way photoswitching norbornadiene derivatives for solar energy storage

Liang Fei, Helen Hölzel, Zhihang Wang, Andreas Erbs Hillers-Bendtsen, Adil S. Aslam, Monika Shamsabadi, Jialing Tan, Kurt V. Mikkelsen, Chaoxia Wang and Kasper Moth-Poulsen 2024. Two-way photoswitching norbornadiene derivatives for solar energy storage. Chemical Science. (15), pp. 18179-18186. https://doi.org/10.1039/d4sc04247f
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