Shiwei Zhou
Nanjing University
10 Papers
32 Citations
Shiwei Zhou is an academic researcher from Nanjing University. The author has contributed to research in topics: Absorption spectroscopy & Targeted drug delivery. The author has an hindex of 9, co-authored 10 publications.
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Papers
ZnO/CdS Hierarchical Nanospheres for Photoelectrochemical Sensing of Cu2+
TL;DR: In this paper, a photoelectrochemical sensor was developed based on the interaction between Cu2+ and CdS. The results showed that this sensor has a good selectivity and high sensitivity for detection.
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Simultaneous Detection of Tumor Cell Apoptosis Regulators Bcl-2 and Bax through a Dual-Signal-Marked Electrochemical Immunosensor
TL;DR: A novel sandwich-type dual-signal-marked electrochemical biosensor was fabricated for simultaneous detection of Bcl-2 and Bax proteins and indicated that the apoptosis level of K562 cells could be regulated by B cl-2 family.
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Chronic Myeloid Leukemia Drug Evaluation Using a Multisignal Amplified Photoelectrochemical Sensing Platform
TL;DR: The results indicate that nilotinib can effectively induce apoptosis of the K562 cells, and the platform could be utilized to evaluate other anticancer drugs.
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Plasmonic Au nanostar Raman probes coupling with highly ordered TiO2/Au nanotube arrays as the reliable SERS sensing platform for chronic myeloid leukemia drug evaluation.
Shengping Wen,Yu Su,Rong Wu,Shiwei Zhou,Qianhao Min,Gao-Chao Fan,Li-Ping Jiang,Rong-Bin Song,Jun-Jie Zhu +8 more
TL;DR: The developed SERS approach possesses fascinating advantages of cost-effectiveness, excellent reproducibility and high sensitivity, which endows it with promising potential in apoptosis monitoring and anticancer drug development.
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CdSeTe@CdS@ZnS Quantum-Dot-Sensitized Macroporous Tio2 Film: A Multisignal-Amplified Photoelectrochemical Platform
TL;DR: A multisignal-amplified photoelectrochemical platform was fabricated by further modifying this film with a combination of biotin-DEVD-peptide, which was generated as a better electron donor, leading to increased photocurrent output and monitoring the variation of photocurrent caused by AA.
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