| Development of targetable two-photon fluorescent probes to image hypochlorous acid in mitochondria and lysosome in live cell and inflamed mouse model L Yuan, L Wang, BK Agrawalla, SJ Park, H Zhu, B Sivaraman, J Peng, ... Journal of the American Chemical Society 137 (18), 5930-5938, 2015 | 546 | 2015 |
| Small-molecule fluorescent probes for live-cell super-resolution microscopy L Wang, MS Frei, A Salim, K Johnsson Journal of the American Chemical Society 141 (7), 2770-2781, 2018 | 451 | 2018 |
| A general strategy to develop cell permeable and fluorogenic probes for multicolour nanoscopy L Wang, M Tran, E D’Este, J Roberti, B Koch, L Xue, K Johnsson Nature Chemistry 12 (2), 165-172, 2020 | 298 | 2020 |
| A multisite‐binding switchable fluorescent probe for monitoring mitochondrial ATP level fluctuation in live cells L Wang, L Yuan, X Zeng, J Peng, Y Ni, JC Er, W Xu, BK Agrawalla, D Su, ... Angewandte Chemie International Edition 55 (5), 1773-1776, 2016 | 202 | 2016 |
| Systematic tuning of rhodamine spirocyclization for super-resolution microscopy N Lardon, L Wang, A Tschanz, P Hoess, M Tran, E D’Este, J Ries, ... Journal of the American Chemical Society 143 (36), 14592-14600, 2021 | 124 | 2021 |
| Boronic acid: a bio-inspired strategy to increase the sensitivity and selectivity of fluorescent NADH probe L Wang, J Zhang, B Kim, J Peng, SN Berry, Y Ni, D Su, J Lee, L Yuan, ... Journal of the American Chemical Society 138 (33), 10394-10397, 2016 | 82 | 2016 |
| A synergistic strategy to develop photostable and bright dyes with long Stokes shift for nanoscopy G Jiang, TB Ren, E D’Este, M Xiong, B Xiong, K Johnsson, XB Zhang, ... Nature Communications 13 (1), 2264, 2022 | 76 | 2022 |
| pH responsive fluorescence nanoprobe imaging of tumors by sensing the acidic microenvironment L Wang, C Li Journal of Materials Chemistry 21 (40), 15862-15871, 2011 | 73 | 2011 |
| Environmentally sensitive color‐shifting fluorophores for bioimaging L Wang, J Hiblot, C Popp, L Xue, K Johnsson Angewandte Chemie International Edition 59 (49), 21880-21884, 2020 | 61 | 2020 |
| Imaging acidosis in tumors using a pH-activated near-infrared fluorescence probe L Wang, X Zhu, C Xie, N Ding, X Weng, W Lu, X Wei, C Li Chemical Communications 48 (95), 11677-11679, 2012 | 60 | 2012 |
| Evaluating tumor metastatic potential by imaging intratumoral acidosis via pH‐activatable near‐infrared fluorescent probe L Wang, Z Fan, J Zhang, Y Changyi, C Huang, Y Gu, Z Xu, Z Tang, W Lu, ... International Journal of Cancer 136 (4), E107-E116, 2015 | 46 | 2015 |
| Engineering a highly selective probe for ratiometric imaging of H 2 S n and revealing its signaling pathway in fatty liver disease W Li, L Wang, S Yin, H Lai, L Yuan, X Zhang Chemical Science 11 (30), 7991-7999, 2020 | 34 | 2020 |
| Fluorogenic and cell‐permeable rhodamine dyes for high‐contrast live‐cell protein labeling in bioimaging and biosensing D Si, Q Li, Y Bao, J Zhang, L Wang Angewandte Chemie International Edition 62 (45), e202307641, 2023 | 28 | 2023 |
| A cyanine based fluorophore emitting both single photon near-infrared fluorescence and two-photon deep red fluorescence in aqueous solution Lu Wang, Jiefu Jin, Xishan Chen, Hai-Hua Fan, Kok-Wai Cheah, Ning Ding ... Organic & biomolecular chemistry 10 (28), 5366-5370, 2012 | 26 | 2012 |
| A new approach for turn-on fluorescence sensing of l-DOPA L Wang, D Su, SN Berry, J Lee, YT Chang Chemical Communications 53 (92), 12465-12468, 2017 | 24 | 2017 |
| Angew. Chemie Int. Ed 2016, 55, 1773–1776 L Wang, L Yuan, X Zeng, J Peng, Y Ni, JC Er, W Xu, BK Agrawalla, D Su, ... Angew. Chem 128, 1805-1808, 2016 | 20 | 2016 |
| Fluorogenic rhodamine-based chemigenetic biosensor for monitoring cellular NADPH dynamics H Chang, S Clemens, P Gao, Q Li, H Zhao, L Wang, J Zhang, P Zhou, ... Journal of the American Chemical Society 146 (30), 20569-20576, 2024 | 6 | 2024 |
| Nanomedicine and Cancer CL Lu Wang CRC press, 2011 | 5* | 2011 |
Kai JohnssonMax Planck Institute for Medical Research, HeidelbergVerified email at epfl.ch