Molecular afterglow imaging with bright, biodegradable polymer nanoparticles Q Miao, C Xie, X Zhen, Y Lyu, H Duan, X Liu, JV Jokerst, K Pu Nature biotechnology 35 (11), 1102-1110, 2017 | 757 | 2017 |
Dual‐peak absorbing semiconducting copolymer nanoparticles for first and second near‐infrared window photothermal therapy: a comparative study Y Jiang, J Li, X Zhen, C Xie, K Pu Advanced Materials 30 (14), 1705980, 2018 | 517 | 2018 |
Semiconducting polymer nanobioconjugates for targeted photothermal activation of neurons Y Lyu, C Xie, SA Chechetka, E Miyako, K Pu Journal of the American Chemical Society 138 (29), 9049-9052, 2016 | 415 | 2016 |
Broadband absorbing semiconducting polymer nanoparticles for photoacoustic imaging in second near-infrared window Y Jiang, PK Upputuri, C Xie, Y Lyu, L Zhang, Q Xiong, M Pramanik, K Pu Nano letters 17 (8), 4964-4969, 2017 | 377 | 2017 |
Metabolizable semiconducting polymer nanoparticles for second near‐infrared photoacoustic imaging Y Jiang, PK Upputuri, C Xie, Z Zeng, A Sharma, X Zhen, J Li, J Huang, ... Advanced materials 31 (11), 1808166, 2019 | 308 | 2019 |
Macrotheranostic probe with disease‐activated near‐infrared fluorescence, photoacoustic, and photothermal signals for imaging‐guided therapy X Zhen, J Zhang, J Huang, C Xie, Q Miao, K Pu Angewandte Chemie 130 (26), 7930-7934, 2018 | 308 | 2018 |
Intraparticle Energy Level Alignment of Semiconducting Polymer Nanoparticles to Amplify Chemiluminescence for Ultrasensitive In Vivo Imaging of Reactive … X Zhen, C Zhang, C Xie, Q Miao, KL Lim, K Pu ACS nano 10 (6), 6400-6409, 2016 | 287 | 2016 |
Temperature‐correlated afterglow of a semiconducting polymer nanococktail for imaging‐guided photothermal therapy X Zhen, C Xie, K Pu Angewandte Chemie 130 (15), 4002-4006, 2018 | 270 | 2018 |
Semiconducting polymer nanoenzymes with photothermic activity for enhanced cancer therapy J Li, C Xie, J Huang, Y Jiang, Q Miao, K Pu Angewandte Chemie International Edition 57 (15), 3995-3998, 2018 | 254 | 2018 |
Photoactivatable organic semiconducting pro-nanoenzymes J Li, J Huang, Y Lyu, J Huang, Y Jiang, C Xie, K Pu Journal of the American Chemical Society 141 (9), 4073-4079, 2019 | 227 | 2019 |
A generic approach towards afterglow luminescent nanoparticles for ultrasensitive in vivo imaging Y Jiang, J Huang, X Zhen, Z Zeng, J Li, C Xie, Q Miao, J Chen, P Chen, ... Nature communications 10 (1), 2064, 2019 | 218 | 2019 |
Renal‐clearable molecular semiconductor for second near‐infrared fluorescence imaging of kidney dysfunction J Huang, C Xie, X Zhang, Y Jiang, J Li, Q Fan, K Pu Angewandte Chemie International Edition 58 (42), 15120-15127, 2019 | 197 | 2019 |
Organic photodynamic nanoinhibitor for synergistic cancer therapy Y Jiang, J Li, Z Zeng, C Xie, Y Lyu, K Pu Angewandte Chemie International Edition 58 (24), 8161-8165, 2019 | 188 | 2019 |
Semiconducting photothermal nanoagonist for remote-controlled specific cancer therapy X Zhen, C Xie, Y Jiang, X Ai, B Xing, K Pu Nano Letters 18 (2), 1498-1505, 2018 | 182 | 2018 |
Unimolecular chemo-fluoro-luminescent reporter for crosstalk-free duplex imaging of hepatotoxicity P Cheng, Q Miao, J Li, J Huang, C Xie, K Pu Journal of the American Chemical Society 141 (27), 10581-10584, 2019 | 170 | 2019 |
Self‐assembled semiconducting polymer nanoparticles for ultrasensitive near‐infrared afterglow imaging of metastatic tumors C Xie, X Zhen, Q Miao, Y Lyu, K Pu Advanced Materials 30 (21), 1801331, 2018 | 166 | 2018 |
Cellular uptake, antitumor response and tumor penetration of cisplatin-loaded milk protein nanoparticles X Zhen, X Wang, C Xie, W Wu, X Jiang Biomaterials 34 (4), 1372-1382, 2013 | 157 | 2013 |
Self-quenched semiconducting polymer nanoparticles for amplified in vivo photoacoustic imaging C Xie, PK Upputuri, X Zhen, M Pramanik, K Pu Biomaterials 119, 1-8, 2017 | 156 | 2017 |
Nanoparticle regrowth enhances photoacoustic signals of semiconducting macromolecular probe for in vivo imaging C Xie, X Zhen, Y Lyu, K Pu Advanced Materials 29 (44), 1703693, 2017 | 150 | 2017 |
Tracking cancer metastasis in vivo by using an iridium‐based hypoxia‐activated optical oxygen nanosensor X Zheng, H Tang, C Xie, J Zhang, W Wu, X Jiang Angewandte Chemie International Edition 54 (28), 8094-8099, 2015 | 137 | 2015 |