| Quantum dot bioconjugates for ultrasensitive nonisotopic detection WCW Chan, S Nie Science 281 (5385), 2016-2018, 1998 | 10049 | 1998 |
| Determining the size and shape dependence of gold nanoparticle uptake into mammalian cells BD Chithrani, AA Ghazani, WCW Chan Nano letters 6 (4), 662-668, 2006 | 5768 | 2006 |
| Analysis of nanoparticle delivery to tumours S Wilhelm, AJ Tavares, Q Dai, S Ohta, J Audet, HF Dvorak, WCW Chan Nature reviews materials 1 (5), 1-12, 2016 | 4545 | 2016 |
| Probing the cytotoxicity of semiconductor quantum dots AM Derfus, WCW Chan, SN Bhatia Nano letters 4 (1), 11-18, 2004 | 4193 | 2004 |
| The effect of nanoparticle size, shape, and surface chemistry on biological systems A Albanese, PS Tang, WCW Chan Annual review of biomedical engineering 14 (1), 1-16, 2012 | 4070 | 2012 |
| Nanoparticle-mediated cellular response is size-dependent W Jiang, BYS Kim, JT Rutka, WCW Chan Nature nanotechnology 3 (3), 145-150, 2008 | 3172 | 2008 |
| Luminescent quantum dots for multiplexed biological detection and imaging WCW Chan, DJ Maxwell, X Gao, RE Bailey, M Han, S Nie Current opinion in biotechnology 13 (1), 40-46, 2002 | 3028 | 2002 |
| Elucidating the mechanism of cellular uptake and removal of protein-coated gold nanoparticles of different sizes and shapes BD Chithrani, WCW Chan Nano letters 7 (6), 1542-1550, 2007 | 2687 | 2007 |
| Nanocrystal targeting in vivo ME Åkerman, WCW Chan, P Laakkonen, SN Bhatia, E Ruoslahti Proceedings of the National Academy of Sciences 99 (20), 12617-12621, 2002 | 2120 | 2002 |
| Nanoparticle size and surface chemistry determine serum protein adsorption and macrophage uptake CD Walkey, JB Olsen, H Guo, A Emili, WCW Chan Journal of the American Chemical Society 134 (4), 2139-2147, 2012 | 2033 | 2012 |
| Diagnosing COVID-19: the disease and tools for detection B Udugama, P Kadhiresan, HN Kozlowski, A Malekjahani, M Osborne, ... ACS nano 14 (4), 3822-3835, 2020 | 1877 | 2020 |
| Understanding and controlling the interaction of nanomaterials with proteins in a physiological environment CD Walkey, WCW Chan Chemical Society Reviews 41 (7), 2780-2799, 2012 | 1724 | 2012 |
| Mediating tumor targeting efficiency of nanoparticles through design SD Perrault, C Walkey, T Jennings, HC Fischer, WCW Chan Nano letters 9 (5), 1909-1915, 2009 | 1667 | 2009 |
| Nanomedicine BYS Kim, JT Rutka, WCW Chan New England Journal of Medicine 363 (25), 2434-2443, 2010 | 1428 | 2010 |
| Porphysome nanovesicles generated by porphyrin bilayers for use as multimodal biophotonic contrast agents JF Lovell, CS Jin, E Huynh, H Jin, C Kim, JL Rubinstein, WCW Chan, ... Nature materials 10 (4), 324-332, 2011 | 1365 | 2011 |
| Diverse applications of nanomedicine B Pelaz, C Alexiou, RA Alvarez-Puebla, F Alves, AM Andrews, S Ashraf, ... ACS nano 11 (3), 2313-2381, 2017 | 1250 | 2017 |
| The entry of nanoparticles into solid tumours S Sindhwani, AM Syed, J Ngai, BR Kingston, L Maiorino, J Rothschild, ... Nature materials 19 (5), 566-575, 2020 | 1236 | 2020 |
| Nanoparticle–liver interactions: Cellular uptake and hepatobiliary elimination YN Zhang, W Poon, AJ Tavares, ID McGilvray, WCW Chan Journal of controlled release 240, 332-348, 2016 | 1063 | 2016 |
| Effect of gold nanoparticle aggregation on cell uptake and toxicity A Albanese, WCW Chan ACS nano 5 (7), 5478-5489, 2011 | 947 | 2011 |
| Strategies for the intracellular delivery of nanoparticles LYT Chou, K Ming, WCW Chan Chemical society reviews 40 (1), 233-245, 2011 | 946 | 2011 |
