代表性论文:
[17] Wangning Zhang; Chenming Chan; Kaiyu Zhang; Haifeng Qin; Bo-Yang Yu; Zhaoli Xue*; Xianchuang Zheng*; Jiangwei Tian*; Discovering a new drug against acute kidney injury by using a tailored photoacoustic imaging probe, Advanced Materials, 2024, 36(18): 2311397
[16] Tiange Zhang; Xiaoshuai Liu*; Haifeng Qin; Yufeng Lin; Baojun Li; Xiqun Jiang; Xianchuang Zheng*; Semiphysical design concept for developing miniaturized microrobots in vivo, Nano Letters, 2024, 24(16): 4834-4842
[15] Wenze Zhang; Zhuoxia Shen; Chaoran Li; Yumeng Yang; Tiange Zhang; Bo-Yang Yu; Xianchuang Zheng*; Jiangwei Tian*; A “defend–attack and capture flag” strategy for cascade management of hepatic ischemia reperfusion injury, Chemical Engineering Journal, 2024, 487: 150501
[14] Haifeng Qin; Xiaoshuai Liu*; Tiange Zhang; Yufeng Lin; Huaying Wu; Fei Xiao; Baojun Li*; Xianchuang Zheng*; Optically reconfigurable platelet architecture in vivo, ACS Photonics, 2024, DOI: 10.1021/acsphotonics.4c00123
[13] Kaiyu Zhang; Lei Sun; Wangning Zhang; Mingyuan Cao; Xiaonan Ma; Bo-Yang Yu; Haijun Xu*; Xianchuang Zheng*; Jiangwei Tian*; Discovery of natural products alleviating renal fibrosis with a viscosity-responsive molecular probe, Analytical Chemistry, 2024, 96(16): 6356-6365
[12] Xiaoshuai Liu; Shuai Wu; Huaying Wu; Tiange Zhang; Haifeng Qin; Yufeng Lin; Baojun Li; Xiqun Jiang; Xianchuang Zheng*; Fully active delivery of nanodrugs in vivo via remote optical manipulation, Small Methods, 2024, 8(1): 2301112
[11] Xiaoshuai Liu*; Huaying Wu; Shuai Wu; Haifeng Qin; Tiange Zhang; Yufeng Lin; Xianchuang Zheng*; Baojun Li*; Optically programmable living microrouter in vivo, Advanced Science, 2023, 10(32): 2304103(内封面论文)
[10] Tiange Zhang; Shuai Wu; Haifeng Qin; Huaying Wu; Xiaoshuai Liu*; Baojun Li; Xianchuang Zheng*; An optically controlled virtual microsensor for biomarker detection in vivo, Advanced Materials, 2022, 34(47): 2270326(内封面论文)
[9] Xiaoshuai Liu; Qing Gao; Shuai Wu; Haifeng Qin; Tiange Zhang; Xianchuang Zheng*; Baojun Li*; Optically manipulated neutrophils as native microcrafts in vivo, ACS Central Science, 2022, 8(7): 1017(封面论文)
[8] Cheng Liu#; Xianchuang Zheng#; Tingting Dai; Huiliang Wang; Xian Chen; Bing Chen; Tianying Sun; Feng Wang; Steven Chu; Jianghong Rao*; Reversibly photoswitching upconversion nanoparticles for super-sensitive photoacoustic molecular imaging, Angewandte Chemie International Edition, 2022, 61(19): e202116802(VIP论文)
[7] Wangning Zhang; Fangjian Cai; Haijun Xu*; Yan Wu; Xie-An Yu; Lei Sun; Tiange Zhang; Bo-Yang Yu; Xianchuang Zheng*; Jiangwei Tian*; Small-molecule photoacoustic imaging probe with aggregation-enhanced amplitude for real-time visualization of acute kidney injury, Analytical Chemistry, 2022, 94(27): 9697-9705
[6] Wangning Zhang; Zhuoxia Shen; Yan Wu; Wenze Zhang; Tiange Zhang; Bo-Yang Yu; Xianchuang Zheng*; Jiangwei Tian*; Renal-clearable and biodegradable black phosphorus quantum dots for photoacoustic imaging of kidney dysfunction, Analytica Chimica Acta, 2022, 1204: 339737
[5] Cheng Li#; Xianchuang Zheng#; Weizhi Chen#; Shilu Ji; Yang Yuan; Xiqun Jiang*; Tumor microenvironment-regulated and reported nanoparticles for overcoming the self-confinement of multiple photodynamic therapy, Nano Letters, 2020, 20(9): 6526-6534
[4] Xianchuang Zheng; Liyang Cui; Min Chen; Luis A. Soto; Edward E. Graves; Jianghong Rao*; A near-infrared phosphorescent nanoprobe enables quantitative, longitudinal imaging of tumor hypoxia dynamics during radiotherapy, Cancer Research, 2019, 79(18): 4787-4797
[3] Xianchuang Zheng; Hui Mao; Da Huo; Wei Wu; Baorui Liu; Xiqun Jiang*; Successively activatable ultrasensitive probe for imaging tumour acidity and hypoxia, Nature Biomedical Engineering, 2017, 1: 0057
[2] Xianchuang Zheng; Huang Tang; Chen Xie; Jialiang Zhang; Wei Wu; Xiqun Jiang*; Tracking cancer metastasis in vivo by using an iridium-based hypoxia-activated optical oxygen nanosensor, Angewandte Chemie International Edition, 2015, 54(28): 8094-8099(内封面论文)
[1] Xianchuang Zheng; Xin Wang; Hui Mao; Wei Wu; Baorui Liu; Xiqun Jiang*; Hypoxia-specific ultrasensitive detection of tumours and cancer cells in vivo, Nature Communications, 2015, 6: 5834(ESI高引论文)