Up a level |
Storey, Anna, Elgmati, Khalil, Wang, Yisu, Knaggs, Paul and Swann, Karl 2021. The role of ATP in the differential ability of Sr2+ to trigger Ca2+ oscillations in mouse and human eggs. Molecular Human Reproduction 27 (1) , gaaa086. 10.1093/molehr/gaaa086 |
Pope, Iestyn, Ferreira, Nuno G. C., Wang, Yisu, Masia, Francesco, Swann, Karl, Kille, Peter, Langbein, Wolfgang and Borri, Paola 2021. Background-free 3D four-wave mixing microscopy of single gold nanoparticles inside biological systems. Presented at: European Conference on Biomedical Optics 2021, Munich, Germany, 20-24 June 2021. European Conferences on Biomedical Optics 2021 (ECBO). OSA Technical Digest Optical Society of America, EM3B.6. |
Wang, Yisu, Zilli, Attilio, Sztranyovszky, Zoltan, Langbein, Wolfgang and Borri, Paola 2020. Quantitative optical microspectroscopy, electron microscopy, and modelling of individual silver nanocubes reveals surface compositional changes at the nanoscale. Nanoscale Advances 2 (6) , pp. 2485-2496. 10.1039/D0NA00059K |
Bradley, Josephine, Pope, Iestyn, Wang, Yisu, Langbein, Wolfgang, Borri, Paola and Swann, Karl 2019. Dynamic label-free imaging of lipid droplets and their link to fatty acid and pyruvate oxidation in mouse eggs. Journal of Cell Science 132 (13) , jcs228999. 10.1242/jcs.228999 |
Payne, Lukas, Zilli, Attilio, Wang, Yisu, Langbein, Wolfgang and Borri, Paola 2019. Quantitative high-throughput optical sizing of individual colloidal nanoparticles by wide-field imaging extinction microscopy. Presented at: SPIE BIOS, San Francisco, CA, USA, 2-7 February 2019. Proceedings Volume 10892, Colloidal Nanoparticles for Biomedical Applications XIV. Society of Photo-Optical Instrumentation Engineers (SPIE), p. 17. 10.1117/12.2507632 |
Wang, Yisu
2018.
Fabrication and quantitative correlative light-electron microscopy of novel plasmonic nanoparticles.
PhD Thesis,
Cardiff University.
Item availability restricted. |
Stroud, M. J., Nazgiewicz, A., McKenzie, E. A., Wang, Yisu, Kammerer, R. A. and Ballestrem, C. 2014. GAS2-like proteins mediate communication between microtubules and actin through interactions with end-binding proteins. Journal of Cell Science 127 (12) , pp. 2672-2682. 10.1242/jcs.140558 |