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2021年综述型文章

  1. Yu, L., and Yang, C.. Multipath exciton harvesting in diazine-based luminescent materials and their applications for organic light-emitting diodes. Journal of Materials Chemistry C, 2021, 9, 17265 - 17286.

  2. Li, K., Ren, T., Huan, S.Y., Yuan, L., and Zhang, X.. Progress and Perspective of Solid-State Organic Fluorophores for Biomedical Applications. Journal of the American Chemical Society, 2021, 143, 21143 - 21160.

  3. Yang, R., Chen, M., Zheng, J., Li, X., and Zhang, X.. The Role of Heparin and Glycocalyx in Blood–Brain Barrier Dysfunction. Frontiers in Immunology, 2021, 12, .

  4. Shi, Y.e., Ma, J., Feng, A., Wang, Z., and Rogach, A.L.. Aggregation-induced emission of copper nanoclusters. Aggregate, 2021, 2, .

  5. Yang, G., Liu, Y., Teng, J., and Zhao, C.. FRET ratiometric nanoprobes for nanoparticle monitoring. Biosensors, 2021, 11, .

  6. Youf, R., Müller, M., Balasini, A., Thétiot, F., Müller, M., Hascoët, A., Jonas, U., Schönherr, H., Lemercier, G., Montier, T., and Le Gall, T.. Antimicrobial photodynamic therapy: Latest developments with a focus on combinatory strategies. Pharmaceutics, 2021, 13, .

  7. Wang, J., Zhang, L., and Li, Z.. Aggregation-Induced Emission Luminogens with Photoresponsive Behaviors for Biomedical Applications. Advanced Healthcare Materials, 2021, 10, .

  8. Gong, Z., Zhu, X., Zhou, Z., Siwei, Z., Yang, D., Zhao, B., Zhang, Y., Deng, J., Cheng, Y., Zheng, Y., Zang, S., Kuang, H., Duan, P., Yuan, M., Chen, C., Zhao, Y., Zhong, Y.W., Tang, B.Z., and Liu, M.. Frontiers in circularly polarized luminescence: molecular design, self-assembly, nanomaterials, and applications. Science China Chemistry, 2021, 64, 2060 - 2104.

  9. Wang, H., Chen, X., Qi, Y., Huang, L., Wang, C., Ding, D., and Xue, X.. Aggregation-induced emission (AIE)-guided dynamic assembly for disease imaging and therapy. Advanced Drug Delivery Reviews, 2021, 179, .

  10. Yan, F., Yi, C., Sun, J., Zang, Y., Wang, Y., Xu, M., and Xu, J.. Self-quenching-resistant solid-state carbon dots for mechanism and applications. Microchimica Acta, 2021, 188, .

  11. Wu, Y., Sun, J., Huang, X., Lai, W., and Xiong, Y.. Ensuring food safety using fluorescent nanoparticles-based immunochromatographic test strips. Trends in Food Science and Technology, 2021, 118, 658 - 678.

  12. Chen, H., Wan, Y., Cui, X., Li, S., and Lee, C.S.. Recent Advances in Hypoxia-Overcoming Strategy of Aggregation-Induced Emission Photosensitizers for Efficient Photodynamic Therapy. Advanced Healthcare Materials, 2021, 10, .

  13. Sun, J., Li, H., Gu, X., and Tang, B.Z.. Photoactivatable Biomedical Materials Based on Luminogens with Aggregation-Induced Emission (AIE) Characteristics. Advanced Healthcare Materials, 2021, 10, .

  14. Zha, M., Yang, G., Li, Y., Zhang, C., Li, B., and Li, K.. Recent Advances in AIEgen-Based Photodynamic Therapy and Immunotherapy. Advanced Healthcare Materials, 2021, 10, .

  15. Reza, A.H.M.M., Zhu, X., Qin, J., and Tang, Y.. Microalgae-Derived Health Supplements to Therapeutic Shifts: Redox-Based Study Opportunities with AIE-Based Technologies. Advanced Healthcare Materials, 2021, 10, .

  16. Kailasa, S.K., Borse, S., Koduru, J.R., and Murthy, Z.V.P.. Biomolecules as promising ligands in the synthesis of metal nanoclusters: Sensing, bioimaging and catalytic applications. Trends in Environmental Analytical Chemistry, 2021, 32, .

  17. Dai, J., Dong, X., Wang, Q., Lou, X., Xia, F., and Wang, S.. PEG-Polymer Encapsulated Aggregation-Induced Emission Nanoparticles for Tumor Theranostics. Advanced Healthcare Materials, 2021, 10, .

  18. Wang, B., Liu, S., Liu, X., Hu, R., Qin, A., and Tang, B.Z.. Aggregation-Induced Emission Materials that Aid in Pharmaceutical Research. Advanced Healthcare Materials, 2021, 10, .

  19. He, W., Zhang, T., Bai, H., Kwok, R.T.K., Lam, J.W.Y., and Tang, B.Z.. Recent Advances in Aggregation-Induced Emission Materials and Their Biomedical and Healthcare Applications. Advanced Healthcare Materials, 2021, 10, .

  20. Wang, Y., Xia, B., Huang, Q., Luo, T., Zhang, Y., Timashev, P.S., Guo, W., Li, F., and Liang, X.. Practicable Applications of Aggregation-Induced Emission with Biomedical Perspective. Advanced Healthcare Materials, 2021, 10, .

  21. Borjihan, Q., Wu, H., Dong, A., Gao, H., and Yang, Y.. AIEgens for Bacterial Imaging and Ablation. Advanced Healthcare Materials, 2021, 10, .

  22. Kagatikar, S., and Dhanya, S.. Aggregation induced emission of chalcones. Chemical Papers, 2021, 75, 6147 - 6156.

  23. Chen, X., Han, H., Tang, Z., Jin, Q., and Ji, J.. Aggregation-Induced Emission-Based Platforms for the Treatment of Bacteria, Fungi, and Viruses. Advanced Healthcare Materials, 2021, 10, .

  24. Alizadeh, N., and Salimi, A.. Multienzymes activity of metals and metal oxide nanomaterials: applications from biotechnology to medicine and environmental engineering. Journal of Nanobiotechnology, 2021, 19, .

  25. Zhu, Q.. Optical Characteristics and Applications of AIE Racemic C6-Unsubstituted Tetrahydropyrimidines. Frontiers in Chemistry, 2021, 9, .

  26. Zhang, H., and Tang, B.Z.. Through-Space Interactions in Clusteroluminescence. JACS Au, 2021, 1, 1805 - 1814.

  27. Tang, S., Yang, T., Zhao, Z., Zhu, T., Zhang, Q., Hou, W., and Yuan, W.Z.. Nonconventional luminophores: Characteristics, advancements and perspectives. Chemical Society Reviews, 2021, 50, 12616 - 12655.

  28. Pei, Y., Wang, Z., and Wang, C.. Recent Progress in Polymeric AIE-Active Drug Delivery Systems: Design and Application. Molecular Pharmaceutics, 2021, 18, 3951 - 3965.

  29. Gokul, V., Devadiga, D., and Ahipa, T.N.. Pyridine based mechanochromic compounds: An overview. Dyes and Pigments, 2021, 195, .

  30. Huang, S., Ding, J., Bi, A., Yu, K., and Zeng, W.. Insights into Optical Probes Based on Aggregation-Induced Emission: from Restriction of Intramolecular Motions to Dark State. Advanced Optical Materials, 2021, 9, .

  31. Bai, Y., and Liu, Y.. Illuminating Protein Phase Separation: Reviewing Aggregation-Induced Emission, Fluorescent Molecular Rotor and Solvatochromic Fluorophore Based Probes. Chemistry - A European Journal, 2021, 27, 14564 - 14576.

  32. Mishra, S., and Singh, A.K.. Optical sensors for water and humidity and their further applications. Coordination Chemistry Reviews, 2021, 445, .

  33. Tang, Y., Zhang, D., Zhang, Y., Liu, Y., Cai, L., Plaster, E., and Zheng, J.. Fundamentals and exploration of aggregation-induced emission molecules for amyloid protein aggregation. Journal of Materials Chemistry B, 2021, 10, 2280 - 2295.

  34. Suguna, S., Immanuel David, C., Prabhu, J., N, and hakumar, R.. Functionalized graphene oxide materials for the fluorometric sensing of various analytes: A mini review. Materials Advances, 2021, 2, 6197 - 6212.

  35. Peng, Q., and Shuai, Z.. Molecular mechanism of aggregation-induced emission. Aggregate, 2021, 2, .

  36. Zhang, R., Huang, X., Chen, C., Kwok, R.T.K., Lam, J.W.Y., and Tang, B.Z.. AIEgen for cancer discrimination. Materials Science and Engineering R: Reports, 2021, 146, .

  37. Zhang, X., Wang, P., Nie, Y., and Ma, Q.. Recent development of organic nanoemitter-based ECL sensing application. TrAC - Trends in Analytical Chemistry, 2021, 143, .

  38. Fery-Forgues, S., and Vanucci-Bacqué, C.. Recent Trends in the Design, Synthesis, Spectroscopic Behavior, and Applications of Benzazole-Based Molecules with Solid-State Luminescence Enhancement Properties. Topics in Current Chemistry, 2021, 379, .

  39. Xu, Z., Jiang, Y., Fan, M., Tang, S., Liu, M., Law, W., Yang, C., Ying, M., Ma, M., Dong, B., Yong, K., and Xu, G.. Aggregation-Induced Emission Nanoprobes Working in the NIR-II Region: From Material Design to Fluorescence Imaging and Phototherapy. Advanced Optical Materials, 2021, 9, .

  40. Zhang, H., Ju, Q., Pang, S., Wei, N., and Zhang, Y.. Recent progress of fluorescent probes for the detection of alkaline phosphatase (ALP): A review. Dyes and Pigments, 2021, 194, .

  41. Bera, D., and Goswami, N.. Driving Forces and Routes for Aggregation-Induced Emission-Based Highly Luminescent Metal Nanocluster Assembly. Journal of Physical Chemistry Letters, 2021, 12, 9033 - 9046.

  42. Zhang, Y., Ju, J., Wang, D., an, Yuan, H., Hao, L., and Tan, Y.. Aggregation-induced emission for the visualization of the structure and properties of polymers. Journal of Materials Chemistry C, 2021, 9, 11484 - 11496.

  43. Tu, L., Xie, Y., Li, Z., and Tang, B.Z.. Aggregation-induced emission: Red and near-infrared organic light-emitting diodes. SmartMat, 2021, 2, 326 - 346.

  44. Li, M., Ni, L., Wang, M., Zhu, Z., Yuan, C., and Wu, J.. Research Progress on Evaluating the Effects of Nanomaterial-Based Development of Latent Fingerprints; 手印纳米显现效果的评价研究进展. Guang Pu Xue Yu Guang Pu Fen Xi/Spectroscopy and Spectral Analysis, 2021, 41, 2670 - 2680.

  45. Sivakumar, R., and Lee, N.. Paper-Based Fluorescence Chemosensors for Metal Ion Detection in Biological and Environmental Samples. Biochip Journal, 2021, 15, 216 - 232.

  46. Guo, Z., and Cui, Z.. Fluorescent nanotechnology for in vivo imaging. Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, 2021, 13, .

  47. Ong, S.Y., Zhang, C., Dong, X., and Yao, S.Q.. Recent Advances in Polymeric Nanoparticles for Enhanced Fluorescence and Photoacoustic Imaging. Angewandte Chemie - International Edition, 2021, 60, 17797 - 17809.

  48. Yao, Y., Zhang, Y., Yan, C., Zhu, W., and Guo, Z.. Enzyme-activatable fluorescent probes for β-galactosidase: From design to biological applications. Chemical Science, 2021, 12, 9885 - 9894.

  49. Wang, L., Hu, R., Qin, A., and Tang, B.Z.. Conjugated Polymers with Aggregation-Induced Emission Characteristics for Fluorescence Imaging and Photodynamic Therapy. ChemMedChem, 2021, 16, 2330 - 2338.

  50. Ji, C., Lai, L., Li, P., Wu, Z., Cheng, W., and Yin, M.. Organic dye assemblies with aggregation-induced photophysical changes and their bio-applications. Aggregate, 2021, 2, .

  51. Li, H., Kim, H., Han, J., Nguyen, V.N., Peng, X., and Yoon, J.. Activity-based smart AIEgens for detection, bioimaging, and therapeutics: Recent progress and outlook. Aggregate, 2021, 2, .

  52. Ma, S., Du, S., Pan, G., Dai, S., Xu, B., and Tian, W.. Organic molecular aggregates: From aggregation structure to emission property. Aggregate, 2021, 2, .

  53. Zhang, M., and Zhao, W.. Stereodefined tetraarylethylenes: Synthesis and applications. Aggregate, 2021, 2, .

  54. Huang, C., Qiu, Z., Gao, Y., Chen, W., Ji, S., and Huo, Y.. Research Progress on Aggregation-Induced Delayed Fluorescence in Materials and Devices; 聚集诱导延迟荧光材料及器件研究进展. Chinese Journal of Organic Chemistry, 2021, 41, 3050 - 3072.

  55. Qu, Y., Li, D., and Qu, S.. Solid-state Luminescent Carbon Dots Resistant to Aggregation-induced Fluorescence Quenching: Preparation, Photophysical Properties and Applications; 抗聚集诱导荧光猝灭的固态发光碳纳米点:制备, 光物理性质及应用. Faguang Xuebao/Chinese Journal of Luminescence, 2021, 42, 1141 - 1154.

  56. Li, Z., Ji, X., Xie, H., and Tang, B.Z.. Aggregation-Induced Emission-Active Gels: Fabrications, Functions, and Applications. Advanced Materials, 2021, 33, .

  57. Moreno-Alcántar, G., Alipr, i, A., ro, and De Cola, L.D.. Aggregation-Induced Emission in Electrochemiluminescence: Advances and Perspectives. Topics in Current Chemistry, 2021, 379, .

  58. Zhang, J., He, B., Hu, Y., Alam, P., Zhang, H., Lam, J.W.Y., and Tang, B.Z.. Stimuli-Responsive AIEgens. Advanced Materials, 2021, 33, .

  59. Kachwal, V., and Laskar, I.R.. Mechanofluorochromism with Aggregation-Induced Emission (AIE) Characteristics: A Perspective Applying Isotropic and Anisotropic Force. Topics in Current Chemistry, 2021, 379, .

  60. Fang, B., Li, P., Jiang, J., Du, W., Wang, L., Bai, H., Peng, B., Huang, X., An, Z., Li, L., Yang, X., Fu, L., and Huang, W.. Confinement fluorescence effect (CFE): Lighting up life by enhancing the absorbed photon energy utilization efficiency of fluorophores. Coordination Chemistry Reviews, 2021, 440, .

  61. Yan, D., Wu, Q., Wang, D., and Tang, B.Z.. Innovative Synthetic Procedures for Luminogens Showing Aggregation-Induced Emission. Angewandte Chemie - International Edition, 2021, 60, 15724 - 15742.

  62. Yang, X., Jin, X., Zhao, T., and Duan, P.. Circularly polarized luminescence in chiral nematic liquid crystals: Generation and amplification. Materials Chemistry Frontiers, 2021, 5, 4821 - 4832.

  63. Diana, R., and Panunzi, B.. Zinc (Ii) and aiegens: The “clip approach” for a novel fluorophore family. a review. Molecules, 2021, 26, .

  64. Pham, A.T.T., Wallace, A.K., Zhang, X., Tohl, D., Fu, H., Chuah, C., Reynolds, K.J., Ramsey, C., and Tang, Y.. Optical-based biosensors and their portable healthcare devices for detecting and monitoring biomarkers in body fluids. Diagnostics, 2021, 11, .

  65. Zalmi, G.A., Gawade, V.K., Nadimetla, D.N., and Bhosale, S.V.. Aggregation Induced Emissive Luminogens for Sensing of Toxic Elements. ChemistryOpen, 2021, 10, 681 - 696.

  66. Gao, Z., Li, C., Shen, J., and Ding, D.. Organic optical agents for image-guided combined cancer therapy. Biomedical Materials (Bristol), 2021, 16, .

  67. Eguchi, M., Nugraha, A.S., Rowan, A.E., Shapter, J.G., and Yamauchi, Y.. Adsorchromism: Molecular Nanoarchitectonics at 2D Nanosheets—Old Chemistry for Advanced Chromism. Advanced Science, 2021, 8, .

  68. Guo, K., Righetto, M., Minotto, A., ro, Zampetti, A., and Cacialli, F.C.. Non-toxic near-infrared light-emitting diodes. iScience, 2021, 24, .

  69. Hen, M., and Ding, D.. Biophotothermal applications boosted by intramolecular motions from aggregates; 聚集态分子内运动触发的生物光热诊疗. Kexue Tongbao/Chinese Science Bulletin, 2021, 66, 2276 - 2287.

  70. Chaudhuri, D.. Excimers in Multichromophoric Assemblies: Boon or Bane?. Organic Materials, 2021, 3, 455 - 468.

  71. Hu, R., Yang, X., Qin, A., and Tang, B.Z.. AIE polymers in sensing, imaging and theranostic applications. Materials Chemistry Frontiers, 2021, 5, 4073 - 4088.

  72. Dou, Y., ong, Zhu, Q., and Du, K.. Recent Advances in Two-Photon AIEgens and Their Application in Biological Systems. ChemBioChem, 2021, 22, 1871 - 1883.

  73. Han, X., Ge, F., Xu, J., and Bu, X.. Aggregation-induced emission materials for nonlinear optics. Aggregate, 2021, 2, .

  74. Liu, Y., Guan, X., and Fang, Q.. Recent advances in AIEgen-based crystalline porous materials for chemical sensing. Aggregate, 2021, 2, .

  75. Naghibi, S., Chen, T., Jamshidi Ghahfarokhi, A., and Tang, Y.. AIEgen-enhanced protein imaging: Probe design and sensing mechanisms. Aggregate, 2021, 2, .

  76. Lu, W., Wei, S., Shi, H., Le, X., Yin, G., and Chen, T.. Progress in aggregation-induced emission-active fluorescent polymeric hydrogels. Aggregate, 2021, 2, .

  77. Ito, S., Gon, M., Tanaka, K., and Chujo, Y.H.. Molecular design and application of luminescent materials composed of group 13 elements with an aggregation-induced emission property. National Science Review, 2021, 8, .

  78. Barooah, N., Mohanty, J.P., and Bhasikuttan, A.C.. Fluorescent probes for the stabilization and detection of G-quadruplexes and their prospective applications. Journal of the Indian Chemical Society, 2021, 98, .

  79. Yang, Y., Yang, J., Fang, M., and Li, Z.. Recent Process of Photo-responsive Materials with Aggregation-induced Emission. Chemical Research in Chinese Universities, 2021, 37, 598 - 614.

  80. Perera, H.A., and Yan, M.. Imaging, Identification and Inhibition of Microorganisms Using AIEgens. Topics in Current Chemistry, 2021, 379, .

  81. Dong, L., Peng, H., Niu, L., and Yang, Q.. Modulation of Aggregation-Induced Emission by Excitation Energy Transfer: Design and Application. Topics in Current Chemistry, 2021, 379, .

  82. Girish, Y.R., Kalappa, P., and Byrappa, K.. Recent advances in aggregation-induced emission of mechanochromic luminescent organic materials. Emergent Materials, 2021, 4, 673 - 724.

  83. Wang, S., Wang, X., Yu, L., and Sun, M.. Progress and trends of photodynamic therapy: From traditional photosensitizers to AIE-based photosensitizers. Photodiagnosis and Photodynamic Therapy, 2021, 34, .

  84. Rodrigues, A.C.B., and Seixas de Melo, J.S.. Aggregation-Induced Emission: From Small Molecules to Polymers—Historical Background, Mechanisms and Photophysics. Topics in Current Chemistry, 2021, 379, .

  85. Ma, D.. Status and Prospects of Aggregation-Induced Emission Materials in Organic Optoelectronic Devices. Topics in Current Chemistry, 2021, 379, .

  86. Gon, M., Tanaka, K., and Chujo, Y.H.. Discovery of Functional Luminescence Properties Based on Flexible and Bendable Boron-Fused Azomethine/Azobenzene Complexes with O,N,O-Type Tridentate Ligands. Chemical Record, 2021, 21, 1358 - 1373.

  87. He, Z., Tian, S., Gao, Y., Meng, F., and Luo, L.. Luminescent AIE Dots for Anticancer Photodynamic Therapy. Frontiers in Chemistry, 2021, 9, .

  88. Dang, Y., Feng, Y., and Chen, D.. Red/Near-Infrared Biothiol Fluorescent Probes; 红光/近红外光硫醇荧光探针. Progress in Chemistry, 2021, 33, 868 - 882.

  89. Liu, S., Feng, G., Tang, B.Z., and Liu, B.. Recent advances of AIE light-up probes for photodynamic therapy. Chemical Science, 2021, 12, 6488 - 6506.

  90. Zhou, Z., Li, B., Liu, X., Li, Z., Zhu, S., Liang, Y., Cui, Z., and Wu, S.. Recent Progress in Photocatalytic Antibacterial. ACS Applied Bio Materials, 2021, 4, 3909 - 3936.

  91. Sun, P., Sun, D., and Xin, X.. Supramolecular self-assembly and application of metal clusters; 金属纳米团簇的超分子自组装及其应用. Kexue Tongbao/Chinese Science Bulletin, 2021, 66, 1717 - 1732.

  92. Du, W., Liu, X., Liu, L., Lam, J.W.Y., and Tang, B.Z.. Photoresponsive Polymers with Aggregation-Induced Emission. ACS Applied Polymer Materials, 2021, 3, 2290 - 2309.

  93. Guan, J., Shen, C., Peng, J., and Zheng, J.. What leads to aggregation-induced emission?. Journal of Physical Chemistry Letters, 2021, 12, 4218 - 4226.

  94. Luu, T., Li, W., O'Brien-Simpson, N.M., and Hong, Y.. Recent Applications of Aggregation Induced Emission Probes for Antimicrobial Peptide Studies. Chemistry - An Asian Journal, 2021, 16, 1027 - 1040.

  95. Wei, K., Wang, H., Ji, C., and Yin, M.. Progress in organic fluorescent probes for detecting metal ions in environment; 有机荧光分子检测环境中金属离子的研究进展. Kexue Tongbao/Chinese Science Bulletin, 2021, 66, 1614 - 1627.

  96. Cao, X., Gao, A., Hou, J., and Yi, T.. Fluorescent supramolecular self-assembly gels and their application as sensors: A review. Coordination Chemistry Reviews, 2021, 434, .

  97. Grubb, M.J., Wieners, C.E., and Yang, P.. Modeling myths: On DICE and dynamic realism in integrated assessment models of climate change mitigation. Wiley Interdisciplinary Reviews: Climate Change, 2021, 12, .

  98. Yan, Y., Zhang, J., Yi, S., Liu, L., and Huang, C.. Lighting up forensic science by aggregation-induced emission: A review. Analytica Chimica Acta, 2021, 1155, .

  99. Zhao, E., and Chen, S.. Materials with aggregation-induced emission characteristics for applications in diagnosis, theragnosis, disease mechanism study and personalized medicine. Materials Chemistry Frontiers, 2021, 5, 3322 - 3343.

  100. Qi, C., Wang, X., Chen, Z., Xiang, S., Wang, T., Feng, H., and Tang, B.Z.. Organometallic AIEgens for biological theranostics. Materials Chemistry Frontiers, 2021, 5, 3281 - 3297.

  101. Mei, J., and Tian, H.. Most recent advances on enzyme-activatable optical probes for bioimaging. Aggregate, 2021, 2, .

  102. Sayas, C.L., and Avila, J.R.. GSK-3 and tau: A key duet in alzheimer’s disease. Cells, 2021, 10, .

  103. Tong, C., Shi, F., Tong, X., Shi, S., Ali, I., and Guo, Y.. Shining natural flavonols in sensing and bioimaging. TrAC - Trends in Analytical Chemistry, 2021, 137, .

  104. Tavakoli, J., Ghahfarokhi, A.J., and Tang, Y.. Aggregation-Induced Emission Fluorescent Gels: Current Trends and Future Perspectives. Topics in Current Chemistry, 2021, 379, .

  105. Xu, J., Zhang, H., Xu, Z., Tao, F., and Cui, Y.. Wavelength tunable barbituric acid derivatives: Synthesis, aggregation-induced emission and nitroaromatic detection. Journal of Luminescence, 2021, 232, .

  106. Xu, W., Wang, D., and Tang, B.Z.. NIR-II AIEgens: A Win–Win Integration towards Bioapplications. Angewandte Chemie - International Edition, 2021, 60, 7476 - 7487.

  107. Ren, F., Shi, J., Tong, B., Cai, Z., and Dong, Y.. Near Infrared Fluorescent Dyes with Aggregation-Induced Emission; 具有聚集诱导发光性质的近红外荧光染料. Progress in Chemistry, 2021, 33, 341 - 354.

  108. Bai, M.G., Vignesh Babu, H.V., Lakshmi, V., and Rajeswara Rao, M.. Structure-property-function relationship of fluorescent conjugated microporous polymers. Materials Chemistry Frontiers, 2021, 5, 2506 - 2551.

  109. Tian, X., Murfin, L.C., Wu, L., Lewis, S.E., and James, T.D.. Fluorescent small organic probes for biosensing. Chemical Science, 2021, 12, 3406 - 3426.

  110. Liu, S., Li, Y., Kwok, R.T.K., Lam, J.W.Y., and Tang, B.Z.. Structural and process controls of AIEgens for NIR-II theranostics. Chemical Science, 2021, 12, 3427 - 3436.

  111. Kowser, Z., Rayhan, U., Akther, T., Redshaw, C., and Yamato, T.. A brief review on novel pyrene based fluorometric and colorimetric chemosensors for the detection of Cu2+. Materials Chemistry Frontiers, 2021, 5, 2173 - 2200.

  112. Zhang, Z., Kang, M., Wang, Y., Song, G., Wen, H., Wang, D., and Tang, B.Z.. Recent Advances of Aggregation-induced Emission Materials in Phototheranostics; 聚集诱导发光材料在光学诊疗中的研究进展. Faguang Xuebao/Chinese Journal of Luminescence, 2021, 42, 361 - 378.

  113. Lyu, Y., Wang, Q., and Zhu, W.. Food Safety Detection Using Aggregation-induced Emission Materials; 聚集诱导发光材料在食品安全检测中的应用. Faguang Xuebao/Chinese Journal of Luminescence, 2021, 42, 319 - 335.

  114. Xu, H., Wang, Y., Jing, J., Wang, Y., Sun, W., and Chen, H.. Progress on Metal Nanoclusters with Aggregation-induced Emission Characteristic in Biomedical Application; 聚集诱导发光增强型金属纳米团簇在生物医学领域的研究进展. Faguang Xuebao/Chinese Journal of Luminescence, 2021, 42, 336 - 347.

  115. Peng, J.Q., Chen, M., Qin, A., and Tang, B.Z.. Progress on Aggregation-induced Emission Probes for Mitochondria Target and Cancer Cell Identification; 聚集诱导发光探针用于线粒体靶向和癌细胞识别研究进展. Faguang Xuebao/Chinese Journal of Luminescence, 2021, 42, 348 - 360.

  116. Chen, S., Chen, Q., Luo, S., Cao, X., Yang, G., Zeng, X., and Wang, Z.. Progress in Design, Synthesis and Application of Triphenylamine-Based Fluorescent Probes; 基于三苯胺的荧光探针设计, 合成与应用研究进展. Chinese Journal of Organic Chemistry, 2021, 41, 919 - 933.

  117. Huang, W., Luo, S., Yang, D., and Zhang, S.. Applications of smartphone-based near-infrared (NIR) imaging, measurement, and spectroscopy technologies to point-of-care (POC) diagnostics; 基于智能手机的近红外成像、测量和光谱技术在护理点诊断中的应用. Journal of Zhejiang University: Science B, 2021, 22, 171 - 189.

  118. Dang, H., and Yan, L.. Organic fluorescent nanoparticles with NIR-II emission for bioimaging and therapy. Biomedical Materials (Bristol), 2021, 16, .

  119. Hermann, P., Appleby, B.S., Br, el, J.P.A., Caughey, B.W., Collins, S.J., Geschwind, M.D., Green, A.J.E., Häik, S., Kovács, G.G., Ladogana, A., Llorens, F., Mead, S.H., Nishida, N., Pal, S., Parchi, P., Pocchiari, M., Satoh, K., Zanusso, G., and Zerr, I.. Biomarkers and diagnostic guidelines for sporadic Creutzfeldt-Jakob disease. The Lancet Neurology, 2021, 20, 235 - 246.

  120. Yang, G., Liang, J., Hu, X., Liu, M., Zhang, X., and Wei, Y.. Recent Advances on Fabrication of Polymeric Composites Based on Multicomponent Reactions for Bioimaging and Environmental Pollutant Removal. Macromolecular Rapid Communications, 2021, 42, .

  121. Wang, K., Wang, W., Zhang, X., Jiang, A., Yang, Y., and Zhu, H.. Fluorescent probes for the detection of alkaline phosphatase in biological systems: Recent advances and future prospects. TrAC - Trends in Analytical Chemistry, 2021, 136, .

  122. Wang, J., Qin, A., and Tang, B.Z.. Multicomponent Polymerizations Involving Green Monomers. Macromolecular Rapid Communications, 2021, 42, .

  123. Saraf, M., Yaraki, M.T., Prateek, n., Tan, Y.N., and Gupta, R.K.. Insights and Perspectives Regarding Nanostructured Fluorescent Materials toward Tackling COVID-19 and Future Pandemics. ACS Applied Nano Materials, 2021, 4, 911 - 948.

  124. Suman, G.R., P, ey, M., and Chakravarthy, J.A.. Review on new horizons of aggregation induced emission: From design to development. Materials Chemistry Frontiers, 2021, 5, 1541 - 1584.

  125. Zhang, Y., Huang, W., Tan, X., Wang, J., Zhao, Y., Hu, J., and Wang, S.. A mitochondria-Targeted dual-functional aggregation-induced emission luminogen for intracellular mitochondrial imaging and photodynamic therapy. Biomaterials Science, 2021, 9, 1232 - 1236.

  126. Liu, Z., Meng, T., Tang, X., Tian, R., and Guan, W.. The Promise of Aggregation-Induced Emission Luminogens for Detecting COVID-19. Frontiers in Immunology, 2021, 12, .

  127. Alam, P., Leung, N.L.C., Zhang, J., Kwok, R.T.K., Lam, J.W.Y., and Tang, B.Z.. AIE-based luminescence probes for metal ion detection. Coordination Chemistry Reviews, 2021, 429, .

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