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发表时间:2021-11-08 阅读次数:18


1.     Luo, X.; Zhu, J.; Jia, W.; Fang, N.; Wu, P.; Cai, C.; Zhu, J.-j., Boosting Long-Range Surface-Enhanced Raman Scattering on Plasmonic Nanohole Arrays for Ultrasensitive Detection of MiRNA. Acs Applied Materials & Interfaces 2021,13, 18301-18313.

2.     Su, Y.; Wen, S.; Luo, X.; Xue, F.; Wu, S.; Yuan, B.; Lu, X.; Cai, C.; Jiang, L.-P.; Wu, P.; Zhu, J.-J., Highly Biocompatible Plasmonically Encoded Raman Scattering Nanoparticles Aid Ultrabright and Accurate Bioimaging. Acs Applied Materials & Interfaces 2021,13, 135-147.

3.     Liang, T.; Wen, D.; Chen, G.; Chan, A.; Chen, Z.; Li, H.; Wang, Z.; Han, X.; Jiang, L.; Zhu, J.-J.; Gu, Z., Adipocyte-Derived Anticancer Lipid Droplets. Adv. Mater. 2021,33.

4.     Zhu, H.; Jin, R.; Chang, Y.-C.; Zhu, J.-J.; Jiang, D.; Lin, Y.; Zhu, W., Understanding the Synergistic Oxidation in Dichalcogenides through Electrochemiluminescence Blinking at Millisecond Resolution. Adv. Mater. 2021.

5.     Huang, S.; Song, Y.; He, Z.; Zhang, J.-R.; Zhu, J.-J., Self-assembled nanomaterials for biosensing and therapeutics: recent advances and challenges. Analyst 2021,146, 2807-2817.

6.     Afreen, S.; Huang, S.; Zhu, J.-J., A brief note on the potential of homo-oligo-dsDNA and hetero-oligo-dsDNA based on their binder-free electrochemical characteristics on gold electrode. Anal. Chim. Acta 2021,1157.

7.     Cao, Y.; Zhou, Y.; Lin, Y.; Zhu, J.-J., Hierarchical Metal-Organic Framework-Confined CsPbBr3 Quantum Dots and Aminated Carbon Dots: A New Self-Sustaining Suprastructure for Electrochemiluminescence Bioanalysis. Anal. Chem. 2021,93, 1818-1825.

8.     Chen, Y.; Gou, X.; Ma, C.; Jiang, D.; Zhu, J.-J., A Synergistic Coreactant for Single-Cell Electrochemiluminescence Imaging: Guanine-Rich ssDNA-Loaded High-Index Faceted Gold Nanoflowers. Anal. Chem. 2021,93, 7682-7689.

9.     Liang, T.; Zhang, B.; Xing, Z.; Dong, Y.; Xu, H.; Chen, X.; Jiang, L.; Zhu, J.-J.; Min, Q., Adapting and Remolding: Orchestrating Tumor Microenvironment Normalization with Photodynamic Therapy by Size Transformable Nanoframeworks. Angewandte Chemie-International Edition 2021,60, 11464-11473.

10.   Ma, C.; Wu, S.; Zhou, Y.; Wei, H.-F.; Zhang, J.; Chen, Z.; Zhu, J.-J.; Lin, Y.; Zhu, W., Bio-Coreactant-Enhanced Electrochemiluminescence Microscopy of Intracellular Structure and Transport. Angewandte Chemie-International Edition 2021,60, 4907-4914.

11.   Yu, S.; Zhou, Y.; Sun, Y.; Wu, S.; Xu, T.; Chang, Y.-C.; Bi, S.; Jiang, L.-P.; Zhu, J.-J., Endogenous mRNA Triggered DNA-Au Nanomachine for In Situ Imaging and Targeted Multimodal Synergistic Cancer Therapy. Angewandte Chemie-International Edition 2021,60, 5948-5958.

12.   Zheng, F.; Meng, T.; Jiang, D.; Sun, J.; Yao, H.; Zhu, J.-J.; Min, Q., Nanomediator-Effector Cascade Systems for Amplified Protein Kinase Activity Imaging and Phosphorylation-Induced Drug Release In Vivo. Angewandte Chemie-International Edition 2021,60, 21565-21574.

13.   Li, X.; He, Y.; Yang, L.; He, Z.; Zhu, J.-J., Gene/drug-embedded nanoscale metal azolate framework-7 for the reversal of P-glycoprotein-mediated multidrug resistance. Chem. Commun. 2021,57, 6776-6779.

14.   Ma, C.; Wang, M.-X.; Wei, H.-F.; Wu, S.; Zhang, J.-R.; Zhu, J.-J.; Chen, Z., Catalytic route electrochemiluminescence microscopy of cell membranes with nitrogen-doped carbon dots as nano-coreactants. Chem. Commun. 2021,57, 2168-2171.

15.   Zhu, H.; Jiang, D.; Zhu, J.-J., High-resolution imaging of catalytic activity of a single graphene sheet using electrochemiluminescence microscopy. Chemical Science 2021,12, 4794-4799.

16.   Wen, S.-P.; Zhu, J.-J., Recent Advances of Surface-Enhanced Raman Scattering-based Biosensing and Bioimaging. Chinese Journal of Analytical Chemistry 2021,49, 1063-1075.

17.   Han, T.; Yang, J.; Wang, Y.; Cao, Y.; Wang, Y.; Chen, H.-Y.; Zhu, J.-J., Boosted anodic electrochemiluminescence from blue-emissive sulfur quantum dots and its bioanalysis of glutathione. Electrochim. Acta 2021,381.

18.   Yu, S.; Hao, C.; Li, Z.; Zhang, R.; Dang, Y.; Zhu, J.-J., Promoting the electrocatalytic performance of PbO2 nanocrystals via incorporation of Y2O3 nanoparticles: Degradation application and electrocatalytic mechanism. Electrochim. Acta 2021,369.

19.   Cao, Y.; Zhu, J.-J., Recent Progress in Electrochemiluminescence of Halide Perovskites. Frontiers in Chemistry 2021,9.

20.   Cui, R.; Yu, S.; Han, P.; Wu, Y.; Li, Y.; Dang, Y.; Zhou, Y.; Zhu, J.-J., Novel vacancy-rich Co3O4/VO2 nanohybrids for enhanced electrocatalytic performance and application as oxygen evolution electrocatalysts. J. Alloys Compd. 2021,876.

21.   Cao, Y.; Ma, C.; Zhu, J.-J., DNA Technology-assisted Signal Amplification Strategies in Electrochemiluminescence Bioanalysis. Journal of Analysis and Testing 2021,5, 95-111.

22.   Zhu, J.-J., Special Topic: Biomedical Application of DNA-Assembled Nanostructure. Journal of Analysis and Testing 2021,5, 93-94.

23.   Huang, H.; Chen, Y.; Chen, Z.; Chen, J.; Hu, Y.; Zhu, J.-J., Electrochemical sensor based on Ce-MOF/carbon nanotube composite for the simultaneous discrimination of hydroquinone and catechol. J. Hazard. Mater. 2021,416.

24.   Li, P.; Jiang, Y.; Song, R.-B.; Zhang, J.-R.; Zhu, J.-J., Layer-by-layer assembly of Au and CdS nanoparticles on the surface of bacterial cells for photo-assisted bioanodes in microbial fuel cells. Journal of Materials Chemistry B 2021,9, 1638-1646.

25.   Xia, Q.; Chen, X.; Liu, C.; Song, R.-B.; Chen, Z.; Zhang, J.; Zhu, J.-J., Label-Free Probing of Electron Transfer Kinetics of Single Microbial Cells on a Single-Layer Graphene via Structural Color Microscopy. Nano Lett. 2021,21, 7823-7830.

26.   Decuzzi, P.; Peer, D.; Di Mascolo, D.; Palange, A. L.; Manghnani, P. N.; Moghimi, S. M.; Farhangrazi, Z. S.; Howard, K. A.; Rosenblum, D.; Liang, T.; Chen, Z.; Wang, Z.; Zhu, J.-J.; Gu, Z.; Korin, N.; Letourneur, D.; Chauvierre, C.; van der Meel, R.; Kiessling, F.; Lammers, T., Roadmap on nanomedicine. Nanotechnology 2021,32.

27.   Cai, Y.; Fu, J.; Zhou, Y.; Chang, Y.-C.; Min, Q.; Zhu, J.-J.; Lin, Y.; Zhu, W., Insights on forming N,O-coordinated Cu single-atom catalysts for electrochemical reduction CO2 to methane. Nature Communications 2021,12.

28.   Wang, L.; Liu, P.; Liu, Z.; Cao, H.; Ye, S.; Zhao, K.; Liang, G.; Zhu, J.-J., A dual-potential ratiometric electrochemiluminescence biosensor based on Au@CDs nanoflowers, Au@luminol nanoparticles and an enzyme-free DNA nanomachine for ultrasensitive p53 DNA detection. Sensors and Actuators B-Chemical 2021,327.

29.   Xu, T.; Yu, S.; Sun, Y.; Wu, S.; Gao, D.; Wang, M.; Wang, Z.; Tian, Y.; Min, Q.; Zhu, J.-J., DNA Origami Frameworks Enabled Self-Protective siRNA Delivery for Dual Enhancement of Chemo-Photothermal Combination Therapy. Small 2021.

30.   Wang, G.; Wu, W.; Zhu, J.-J.; Peng, D., The promise of low-intensity ultrasound: A review on sonosensitizers and sonocatalysts by ultrasonic activation for bacterial killing. Ultrason. Sonochem. 2021,79, 105781-105781.

31.   Liang, T.; Xing, Z.; Jiang, L.; Zhu, J.-J., Tailoring nanoparticles for targeted drug delivery: From organ to subcellular level. View 2021,2.