Skip to content

2023年综述型文章

  1. Gao, Y., Yan, D., Yang, X., Huang, W., Sun, Y., Zhu, D., Liu, Q., Shan, G., Wang, D., and Tang, B.Z.. The Midas Touch by Internal Stimuli: Activatable Luminogens with Near-Infrared Aggregation-Induced Emission for Potent Bioimaging and Theranostics. Advanced Functional Materials, 2024, 34, .

  2. Zhang, S., Shen, L., Xu, P., Yang, J., Song, P., Li, L., Li, Y., Zhang, Y., and Wu, S.. Advancements of carbon dots: From the perspective of medicinal chemistry. European Journal of Medicinal Chemistry, 2024, 280, .

  3. Xu, W., Jian, D., Yang, H., Wang, W., and Ding, Y.. Aggregation-induced emission: Application in diagnosis and therapy of hepatocellular carcinoma. Biosensors and Bioelectronics, 2024, 266, .

  4. Zhang, F., Zhang, Y., Li, Z., Wu, X., Wang, D., He, Y., Cheng, H., Fan, B., Zhu, D., Li, M., and Tang, B.Z.. Engineered Strategies for Lipid Droplets-Targeted AIEgens Based on Tetraphenylethene. Molecules, 2024, 29, .

  5. Zhu, F., Hou, X., Wang, J., Bi, L., Zhou, J., and Chen, X.. Photoswitchable AIE-Active Supramolecular Self-Assemblies for Biosensing and Bioimaging. Asian Journal of Organic Chemistry, 2024, 13, .

  6. Zhang, M., Li, Y., Ma, G., Guo, F., Wu, H., Wu, H., Jin, Q., Luo, X., Luo, C., Li, J., and Long, Y.. Recent advances in 3D-printable aggregation-induced emission materials. Materials Futures, 2024, 3, .

  7. Chen, L., Chen, S., Yuan, Y., Leng, X., Xu, X., Chen, J., Shi, J., Qian, K., Xie, Y., Ding, Q., Cheng, Z., and Gu, M.. Complexity made easy: Aggregation-induced emission small molecules for cancer diagnosis and phototherapies. Aggregate, 2024, 5, .

  8. Tavakoli, J., Hu, Q., Tipper, J.L., and Tang, Y.. Aggregation-induced emission biomarkers for early detection of orthopaedic implant failure. Aggregate, 2024, 5, .

  9. Zheng, M., Wang, Y., Hu, D., Tian, M., Wei, Y., and Yuan, J.. Construction and modulation of aggregation-induced emission materials based on dynamic covalent bonds. Aggregate, 2024, 5, .

  10. Wang, C., Li, S., Qian, B., Sun, J., He, Z., Wang, Y., Zhang, S., and Luo, C.. AIEgen-functionalized nanoprobes and nanomedicines for cancer diagnosis and therapy. Coordination Chemistry Reviews, 2024, 520, .

  11. Xu, L.. Unconventional aggregation-induced emission property with clusteroluminescence mechanism from natural compounds and applications. Coordination Chemistry Reviews, 2024, 519, .

  12. Gawade, V.K., Jadhav, R.W., and Bhosale, S.V.. AIE-Based & Organic Luminescent Materials: Nanoarchitectonics and Advanced Applications. Chemistry - An Asian Journal, 2024, 19, .

  13. Cheng, Y., Yin, X., Kukkar, D., Wang, J., Kim, Y.H., and Zhang, D.. Aggregation-induced emission-based luminescent porous materials as cutting-edge tools for food safety monitoring. TrAC - Trends in Analytical Chemistry, 2024, 180, .

  14. You, J., Ma, Y., Song, H., Hou, J., and Zhao, E.. The advancing role of fluorogens with AIE characteristics in drug screening. TrAC - Trends in Analytical Chemistry, 2024, 180, .

  15. Yu, Q., Li, J., Yu, Y., Yan, M., Xu, D., and Yin, S.. Biomarker-activatable photosensitizers with aggregation-induced emission characteristics for photodynamic therapy. Coordination Chemistry Reviews, 2024, 518, .

  16. Duo, Y., Han, L., Yang, Y., Wang, Z., Wang, L., Chen, J., Xiang, Z., Yoon, J., Luo, G., and Tang, B.Z.. Aggregation-Induced Emission Luminogen: Role in Biopsy for Precision Medicine. Chemical Reviews, 2024, 124, 11242 - 11347.

  17. Li, X., Wang, Z., He, J., Saad Al-Mashriqi, H.S., Chen, J., and Qiu, H.. Recent advances in emerging nanozymes with aggregation-induced emission. Chemical Science, 2024, 16, 29 - 42.

  18. Liu, W., Liu, Q., Wang, D., and Tang, B.Z.. Fluorescent Porous Materials Based on Aggregation-induced Emission for Biomedical Applications. ACS Nano, 2024, 18, 27206 - 27229.

  19. Yang, S., Wang, J., Deng, Z., Xu, Y., Su, X., Zhang, L., Yang, S., Kwok, R.T.K., Lam, J.W.Y., and Tang, B.Z.. Spiro-materials with aggregation-induced emission. Matter, 2024, 7, 3390 - 3421.

  20. Zha, B., Liu, L., Ren, S., Wu, J., and Wang, H.. Aggregation-Induced Emission (AIE) Probes in Fluorescent Sensing: Progress and Applications for Pesticide Detection. Applied Sciences (Switzerland), 2024, 14, .

  21. Zhuang, G., Wen, Y., Lai, X., Lin, G.S., Zhuang, Z., Chen, F., and Yu, Y.. Recent Progress of Advanced AIE Materials for Visualization of 3-Level Latent Fingerprints. ChemPhotoChem, 2024, 8, .

  22. Chen, X., Yang, Q., Lv, X., Xiong, Y., Tang, B.Z., and Huang, X.. Rational design of ratiometric aggregation-induced emission luminogens for biosensing and bioimaging. Coordination Chemistry Reviews, 2024, 516, .

  23. Xu, H., Chen, X., Wang, H., Wang, C., Guo, Y., Lin, Y., Huang, Y., Hou, J., and Wei, X.. Utilization of aggregation-induced emission materials in urinary system diseases. Aggregate, 2024, 5, .

  24. Ding, Y., Ou, G., and Wang, D.. Aggregation-induced emission luminescence for angiography and atherosclerotic diagnosis. iScience, 2024, 27, .

  25. Ma, Z., Tu, J., Yang, D., Zhang, Q., and Wu, J.. Recent advances in organic small-molecular dual-state emission probes. Journal of Molecular Structure, 2024, 1312, .

  26. Wang, B., Liu, Y., Chen, X., Liu, X., Liu, Z., and Lü, C.. Aggregation-induced emission-active supramolecular polymers: from controlled preparation to applications. Chemical Society Reviews, 2024, 53, 10189 - 10215.

  27. Liang, C.. Organic Polymorphs Based on AIE-Active Molecules: Preparation, Characterization, and Application. Crystal Growth and Design, 2024, 24, 7322 - 7341.

  28. Oroojalian, F., Azizollahi, F., Kesharwani, P., and Sahebkar, A.. Stimuli-responsive nanotheranostic systems conjugated with AIEgens for advanced cancer bio-imaging and treatment. Journal of Controlled Release, 2024, 373, 766 - 802.

  29. Kaur, A., eep, and Chaudhary, R.P.. Review on Synthesis of 2-(2-Hydroxyaryl) Benzothiazoles (HBT) for Excited-State Intra-molecular Proton Transfer (ESIPT)-Based Detection of Ions and Biomolecules. Topics in Current Chemistry, 2024, 382, .

  30. Ye, S., Ji, S., Kang, M., Liu, L., Qu, J., Song, J., and Guo, J.. Aggregated carbon dots endow them with room-temperature phosphorescence in aqueous environments: Mechanisms, properties, and applications. Chemical Engineering Journal, 2024, 495, .

  31. Ding, Q., Luo, Y., Hu, J., Zhang, S., Zhang, W., Feng, Y., Qian, K., Li, X., Cheng, Z., and Gu, M.. Recent progress on the organelle targeted AlEgens for bioimaging and treatment of diseases. Chemical Engineering Journal, 2024, 495, .

  32. Guo, S., Tang, H., Zhang, Y., Wang, Z., and Tan, S.C.. Recent advances in biomimetic aggregation‐induced emission photosensitizers for photodynamic therapy and immunotherapy. BMEMat, 2024, 2, .

  33. Ziran, T., Hao, S., and Liangliang, Z.. Research Progress of Photoresponsive Photoluminescent Materials with Aggregation-Induced Emission Characteristics; 光刺激响应型聚集诱导发光材料的研究进展. Chinese Journal of Organic Chemistry, 2024, 44, 2393 - 2412.

  34. Zhang, J., Li, N., and Zhao, N.. Recent Progress of Aggregation-Induced Emission Molecule Nanozyme Composites; 聚集诱导发光分子纳米酶复合材料的研究进展. Chinese Journal of Organic Chemistry, 2024, 44, 2469 - 2478.

  35. Shen, Y., Luo, K., Xu, Q., Zhang, J., Sun, J., Zhang, H., and Tang, B.Z.. Weak Interaction-Based Organic Luminescent Materials; 弱作用基有机发光材料. Chinese Journal of Organic Chemistry, 2024, 44, 2453 - 2468.

  36. Huang, W., Gao, Y., Sun, Y., Yan, D., Wang, D., and Tang, B.Z.. Aggregation-Induced Emission Materials for Tumor Phototheranostics; 聚集诱导发光材料用于肿瘤光学诊疗. Chinese Journal of Organic Chemistry, 2024, 44, 2413 - 2424.

  37. Meng, Z., Tian, X., and Zhang, T.. Recent Progress of Aggregation-Induced Emission Materials in Tumor Phototherapy; 聚集诱导发光材料在肿瘤光治疗应用中的最新进展. Chinese Journal of Organic Chemistry, 2024, 44, 2441 - 2452.

  38. Afrin, A., Chinna Ayya Swamy, P., and Rose, A.. Glowing discoveries: Schiff base-cyanostilbene probes illuminating metal ions and biological entities. Analytical Methods, 2024, 16, 6323 - 6336.

  39. Li, Z., Tang, B.Z., and Wang, D.. Bioinspired AIE Nanomedicine: A Burgeoning Technology for Fluorescence Bioimaging and Phototheranostics. Advanced Materials, 2024, 36, .

  40. You, Y., Lin, S., Tang, C., Li, Y., Yan, D., Wang, D., and Chen, X.. Dual-/multi-organelle-targeted AIE probes associated with oxidative stress for biomedical applications. Journal of Materials Chemistry B, 2024, 12, 8812 - 8824.

  41. Ruan, C., Sun, K., Li, X., Qiu, J., and Tan, D.. Optical Regulation and Applications of Perovskite Nanocrystals in Glass Microdomains; 玻璃微区钙钛矿纳米晶发光调控与应用. Kuei Suan Jen Hsueh Pao/Journal of the Chinese Ceramic Society, 2024, 52, 2643 - 2658.

  42. Zhang, J., Pan, Y., He, C., Wang, Y., Miao, X., Zhao, H., Fan, Q., and Hu, W.. Progress of Type I Organic Photosensitizers for Photodynamic Therapy; Type I 型有机光敏剂在光动力治疗中的研究进展. Zhongguo Jiguang/Chinese Journal of Lasers, 2024, 51, .

  43. Lu, M., Li, S., Liu, Y., Xu, B., Liu, S., Zhang, J., Zhou, D., and Liu, H.. Advances in phototherapy for infectious diseases. Nano Today, 2024, 57, .

  44. Liu, J., Wu, D., Wu, Y., Shi, Y., Liu, W., Sun, Z., and Li, G.. Recent advances in optical sensors and probes for the detection of freshness in food samples: A comprehensive review (2020–2023). TrAC - Trends in Analytical Chemistry, 2024, 177, .

  45. Dash, P.P., Ghosh, A.K., Mohanty, P., Behura, R., Behera, S., Jali, B.R., and Sahoo, S.K.. Advances on fluorescence chemosensors for selective detection of water. Talanta, 2024, 275, .

  46. Tatsi, E., Nitti, A., Pasini, D., and Griffini, G.. Aggregation-induced emissive nanoarchitectures for luminescent solar concentrators. Nanoscale, 2024, 16, 15502 - 15514.

  47. Bera, S., Selvakumaraswamy, A., Nayak, B.P., and Prasad, P.. Aggregation-induced emission luminogens for latent fingerprint detection. Chemical Communications, 2024, 60, 8314 - 8338.

  48. Jian, X., Jiang, G., and Wang, J.. Recent advances of aggregation-induced emission luminogens for point-of-care biosensing systems. Chemical Communications, 2024, 60, 8484 - 8496.

  49. Chau, J.H., Lee, M.M.S., Yu, E.Y., Kwok, R.T.K., Lam, J.W.Y., Sun, J., and Tang, B.Z.. Advances in biomimetic AIE nanoparticles for diagnosis and phototherapy. Nanoscale, 2024, 16, 14707 - 14715.

  50. Ding, Q., Xu, X., Li, Y., Li, B., Saiding, Q., Gu, M., Tao, W., Tang, B.Z., and Kim, J.S.. Diverse interactions between AIEgens and biomolecules/organisms: Advancing from strategic design to precision theranostics. Chem, 2024, 10, 2031 - 2073.

  51. Saczuk, K., Dudek, M., Matczyszyn, K., and Deiana, M.. Advancements in molecular disassembly of optical probes: a paradigm shift in sensing, bioimaging, and therapeutics. Nanoscale Horizons, 2024, 9, 1390 - 1416.

  52. Qi, L., Liu, S., Ping, J., Yao, X., Chen, L., Yang, D., Liu, Y., Wang, C., Xiao, Y., Qi, L., Jiang, Y., and Fang, X.. Recent Advances in Fluorescent Nanoparticles for Stimulated Emission Depletion Imaging. Biosensors, 2024, 14, .

  53. Hasan, M.S., Kim, S., Lim, C., Lee, J., Seu, M., and Ryu, J.H.. Organelle Targeting Self-Assembled Fluorescent Probe for Anticancer Treatment. Chemosensors, 2024, 12, .

  54. Mukhopadhyay, A., Sahoo, S.R., Mahata, S., and Goswami, N.. Strategic framework for harnessing luminescent metal nanocluster assemblies in biosensing applications. Analytical and Bioanalytical Chemistry, 2024, 416, 3963 - 3974.

  55. Ye, S., and Bao, Y.. Recent Advances in Fluorescent Polymers with Color-Tunable Aggregate Emission. Chemistry of Materials, 2024, 36, 5878 - 5896.

  56. Yuan, L., Shao, C., Zhang, Q., Webb, E.G., Zhao, X., and Lu, S.. Biomass-derived carbon dots as emerging visual platforms for fluorescent sensing. Environmental Research, 2024, 251, .

  57. Shen, X., Cao, M., Xing, X., Ouyang, J., and Na, N.. Advances of fluorescent DNA nanostructures in biomedical applications. Innovation Materials, 2024, 2, .

  58. Asthana, S., Mouli, M.S., Tamrakar, A., Wani, M.A., Mishra, A.K., P, ey, R., P, and ey, M.D.. Recent advances in AIEgen-based chemosensors for small molecule detection, with a focus on ion sensing. Analytical Methods, 2024, 16, 4431 - 4484.

  59. Ullah, Z., Roy, S., Gu, J., Ko Soe, S., Jin, J., and Guo, B.. NIR-II Fluorescent Probes for Fluorescence-Imaging-Guided Tumor Surgery. Biosensors, 2024, 14, .

  60. Hruzd, M., Dur, , R.J., Gauthier, S., Le Poul, P., Robin-Le Guen, F.R.L., and Achelle, S.. Photoluminescence of Platinum(II) Complexes with Diazine-Based Ligands. Chemical Record, 2024, 24, .

  61. Chu, J., Yu, X., Jiang, G., Tao, Y., Wu, W., and Han, S.. Bacterial imaging in tumour diagnosis. Microbial Biotechnology, 2024, 17, .

  62. Zhou, Y., Wu, S., Zhang, X., and Wu, F.G.. Lipid droplet-targeting optical biosensors: Design strategies and applications. TrAC - Trends in Analytical Chemistry, 2024, 175, .

  63. Wang, J., Wang, Y., Li, Z., Xie, C., Khan, M.N., Peng, X., and Yu, F.. Triphenylamine-AIEgens photoactive materials for cancer theranostics. Chinese Chemical Letters, 2024, 35, .

  64. Xu, H., and Cheng, P.. Metal–organic frameworks with aggregation-induced emission. Aggregate, 2024, 5, .

  65. He, Q., Wang, M., Zhao, L., Xu, B., Tian, W., and Zhang, L.. Near-infrared aggregation-induced emission materials: Bibliometric analysis and their application in biomedical field. Aggregate, 2024, 5, .

  66. Zhao, Y., Yu, L., Zhang, L., Liu, H., Zhou, Y., and Kim, J.S.. Activated aggregation-induced emission therapeutics agents for triggering regulated cell death. Aggregate, 2024, 5, .

  67. Tanaka, K.. Solid-state excimer emission of o-carborane derivatives and applications for stimuli-responsive luminescent materials. Dalton Transactions, 2024, 53, 9240 - 9247.

  68. Gao, J., Tian, Y., Li, Y., Hu, F., and Wu, W.. Design strategies for aggregation-induced emission photosensitizers with enhanced safety in photodynamic therapy. Coordination Chemistry Reviews, 2024, 507, .

  69. Guan, W., Chen, J., Liu, J., Shi, B., Yao, H., Zhang, Y., Wei, T., and Lin, Q.. Macrocycles-assembled AIE supramolecular polymer networks. Coordination Chemistry Reviews, 2024, 507, .

  70. Liu, L., Gong, J., Jiang, G., and Wang, J.. Anion-π+ AIEgens for Fluorescence Imaging and Photodynamic Therapy. Chemistry - A European Journal, 2024, 30, .

  71. Yang, S., Chen, Y., Kwok, R.T.K., Lam, J.W.Y., and Tang, B.Z.. Platinum complexes with aggregation-induced emission. Chemical Society Reviews, 2024, 53, 5366 - 5393.

  72. P, it, S., and Seth, D.. Graphene Oxide-Induced Prototropism and Enhancement of Fluorescence Yield of Organic Molecules in Solutions: Recent Advances. Langmuir, 2024, 40, 9328 - 9335.

  73. Xu, L.. Renewable resource of aggregation-induced emission materials: From photophysical mechanisms to biomedical applications. Coordination Chemistry Reviews, 2024, 506, .

  74. Yu, J., Duan, B., Chen, Z., Liu, N., and Wu, Z.. Polymers with Circularly Polarized Luminescent Properties: Design, Synthesis, and Prospects. ChemPlusChem, 2024, 89, .

  75. Jayabharathi, J., and Thanikachalam, V.. Robust luminogens as cutting-edge tools for efficient light emission in recent decades. Physical Chemistry Chemical Physics, 2024, 26, 13561 - 13605.

  76. Bhosle, A.A., Banerjee, M., and Chatterjee, A.. Aggregation-induced emission-active azines for chemosensing applications: a five-year update. Sensors and Diagnostics, 2024, 3, 745 - 782.

  77. Zhu, J., Li, W., Qi, X., Sun, C., Li, W., and Chang, Z.. The applications of covalent organic framework materials as fluorescence probes. Journal of Molecular Structure, 2024, 1301, .

  78. Li, X., Zhu, Z., Lyu, Y., Zhang, C., Hu, S., Wang, Q., and Zhu, W.. Application of AIEgens in Temperature Detection. ACS Materials Letters, 2024, 6, 1356 - 1370.

  79. Gong, C., Yan, C., Liu, J., Li, J., Fu, J., Chen, C., Huang, Y., Yuan, G., and Peng, Y.. Insights into sensing applications of fluorescent covalent organic frameworks. TrAC - Trends in Analytical Chemistry, 2024, 173, .

  80. Li, W., Liang, Z., Wang, P., and Ma, Q.. The luminescent principle and sensing mechanism of metal-organic framework for bioanalysis and bioimaging. Biosensors and Bioelectronics, 2024, 249, .

  81. Li, H., Zhang, T., Liao, Y., Liu, C., He, Y., Wang, Y.f., Li, C., Jiang, C., Li, C., Luo, G., Xiang, Z., and Duo, Y.. Recent advances of aggregation-induced emission in body surface organs. Aggregate, 2024, 5, .

  82. Zhao, Y., Xu, L., He, Y., Feng, Z., Feng, W., and Yan, H.. Nonconventional aggregation-induced emission polysiloxanes: Structures, characteristics, and applications. Aggregate, 2024, 5, .

  83. Nong, X., Gu, A., Zhai, S., Li, J., Yue, Z., Li, M., and Liu, Y.. 1,3-diene-based AIEgens: Stereoselective synthesis and applications. iScience, 2024, 27, .

  84. Li, J., Zhou, H., Qiu, H., Yan, Y., Wang, X., Gao, Z., and Wang, Z.. Phosphorescent carbon dots: Intermolecular interactions, properties, and applications. Coordination Chemistry Reviews, 2024, 503, .

  85. Bayat, M., Mardani, H., Roghani-Mamaqani, H., and Hoogenboom, R.. Self-indicating polymers: a pathway to intelligent materials. Chemical Society Reviews, 2024, 53, 4045 - 4085.

  86. Shi, Y., and He, X.. Aggregation-Induced Emission-Based Chemiluminescence Systems in Biochemical Analysis and Disease Theranostics. Molecules, 2024, 29, .

  87. Yang, Z.C., Zhao, L., Sang, Y.Q., Huang, X., Lin, X.C., and Yu, Z.. Aggregation-Induced Emission Luminogens: A New Possibility for Efficient Visualization of RNA in Plants. Plants, 2024, 13, .

  88. Yu, P., Zhao, Y., Li, X., Zhao, Z., Dong, Y., and Li, X.. Recent progress of fluorescent gels: construction and application. Materials Today Communications, 2024, 38, .

  89. Wang, M., Qin, Y., Li, Z., Song, Z., Wan, Y., Du, J., Song, M., Li, S., Zhang, S., and Zhao, M.. Covalent organic frameworks for detection of ions. TrAC - Trends in Analytical Chemistry, 2024, 172, .

  90. He, W., Kwok, R.T.K., Qiu, Z., Zhao, Z., and Tang, B.Z.. A Holistic Perspective on Living Aggregate. Journal of the American Chemical Society, 2024, 146, 5030 - 5044.

  91. Zhu, F., Mei, L., Tian, R., Li, C., Wang, Y., Xiang, S., Zhu, M., and Tang, B.Z.. Recent advances in super-resolution optical imaging based on aggregation-induced emission. Chemical Society Reviews, 2024, 53, 3350 - 3383.

  92. Sreejaya, M.M., Pillai, V.M., Ayesha, A., Baby, M., Bera, M., and Gangopadhyay, M.. Mechanistic analysis of viscosity-sensitive fluorescent probes for applications in diabetes detection. Journal of Materials Chemistry B, 2024, 12, 2917 - 2937.

  93. Zhang, L., Huang, B., Jin, J., Li, Y., and Gu, N.. Advances in nanoprobes-based immunoassays. BMEMat, 2024, 2, .

  94. Mal, D.K., Pal, H., and Chakraborty, G.. A comprehensive review on recent advances in fluorescence-based bio-analytes sensing. TrAC - Trends in Analytical Chemistry, 2024, 171, .

  95. Zhu, W., Huang, L., Wu, C., Liu, L., and Li, H.. Reviewing the evolutive ACQ-to-AIE transformation of photosensitizers for phototheranostics. Luminescence, 2024, 39, .

  96. Zhao, Z., Gao, A., Wang, Z., Liu, Z., Xiong, W., Xu, Y., Meng, L., and Dang, D.. Recent advances of organic emitters in deep-red light-emitting electrochemical cells. Luminescence, 2024, 39, .

  97. You, Y., Tang, C., Lin, S., Zeng, D., Cong, Y., Wang, D., and Chen, X.. Photoactivatable aggregation-induced emission luminogens based on photodehydrogenation reactions for biomedical applications. Luminescence, 2024, 39, .

  98. Wang, J., Liu, X., Wang, J., Li, F., Jiang, H., and Liu, L.. Recent progress on the construction and application of dithienylethene-based photochromic AIEgens. Luminescence, 2024, 39, .

  99. Yang, X., and Zheng, X.. Theoretical insights into the AIE mechanism of assembles. Luminescence, 2024, 39, .

  100. Li, B., Feng, B., Wang, J., and Qin, Y.. Recent progress on polymerization-induced emission. Luminescence, 2024, 39, .

  101. Asadi-Zaki, N., Mardani, H., Roghani-Mamaqani, H., and Wang, F.. Stimuli-induced adjustment of spatial distribution of fluorescence resonance energy transfer dyads in smart polymers. Coordination Chemistry Reviews, 2024, 500, .

  102. Tanaka, K.. New strategy for lowering the energy levels of one frontier molecular orbital in conjugated molecules and polymers based on Aza-substitution at the isolated HOMO or LUMO. Polymer Journal, 2024, 56, 61 - 70.

  103. Teo, N.K.S., Fan, B., Ardana, A., and Thang, S.H.. Aggregation-induced emission polymers via reversible-deactivation radical polymerization: Special Collection: Distinguished Australian Researchers. Aggregate, 2024, 5, .

  104. Sharma, S., Kaushik, K., Salam, A., Garg, R., Mondal, J., Lamba, R., Kaur, M., N, and i, C.K.. Recent Advances in Long-Lived Emission in Coinage Metal Nanoclusters: Implications for Optoelectronic Applications. ACS Applied Nano Materials, 2024, 7, 32 - 60.

  105. Tyagi, K., and Venkatesh, V.. Emerging potential approaches in alkaline phosphatase (ALP) activatable cancer theranostics. RSC Medicinal Chemistry, 2024, 15, 1148 - 1160.

  106. Afrin, A., and Chinna Ayya Swamy, P.. Symphony of light: AIE and MFC in carbazole-based cyanostilbenes. Journal of Materials Chemistry C, 2024, 12, 1923 - 1944.

  107. Cao, Y.Q., Zong, J., Li, L., Zhang, F., Liu, B., Wang, X., Liu, G., and Lu, J.F.. Application of Fluorescence Analysis Method Based on Aggregation Induced Emission in Multi-field. Journal of Instrumental Analysis, 2024, 43, 1063 - 1075.

  108. Zhuang, J., Li, N., and Zhao, N.. Research progress of mitochondria-targeted near-infrared AIE photosensitizers; 线粒体靶向近红外AIE光敏剂的研究进展. Scientia Sinica Chimica, 2024, 54, 1631 - 1643.

  109. Ge, X., Huang, Q., Yang, Z., Deng, H., Mao, Z., Zhao, J., and Chi, Z.. Progress in the study of hydrogen-bonded organic frameworks based on tetraphenylethylene luminescent core; 基于四苯乙烯发光核的氢键有机框架研究进展. Scientia Sinica Chimica, 2024, 54, 1455 - 1470.

  110. Pei, Y., Liu, L., Cao, X., Zhou, J., and Liu, C.. Advances in the study of AIE polymers. Frontiers in Materials, 2024, 11, .

  111. Jo, E., Savsani, K., Alfonso, A., Park, A.M.G., Lee, S., Sakar, D., Kinsey, N.G., Sambommatsu, Y., Imaid, D., Khan, A.A., Sharma, A., Saeed, M.I., Kumaran, V., Cotterell, A.H., Levy, M.F., and Bruno, D.A.. Photodynamic effect of indocyanine green and its application to hepatocellular carcinoma treatment. Journal of Cancer Metastasis and Treatment, 2024, 10, .

  112. Wu, B., Kenry, u., and Hu, F.. Targeted antibacterial photodynamic therapy with aggregation-induced emission photosensitizers. Interdisciplinary Medicine, 2024, 2, .

  113. Tanaka, K., Gon, M., and Ito, S.. Development of Near-infrared Optical Materials Based on Narrowing Energy Gaps by Aza-substitution of Skeletal Carbon; 骨 格 炭 素 の ア ザ 置 換 に よ る狭 エ ネ ル ギ ー ギ ャ ッ プ 化 を基 盤 と し た 近 赤 外 光 学 材 料 開 発. Yuki Gosei Kagaku Kyokaishi/Journal of Synthetic Organic Chemistry, 2024, 82, 269 - 278.

  114. Clément, S., and Winum., J.Y.. Photodynamic therapy alone or in combination to counteract bacterial infections. Expert Opinion on Therapeutic Patents, 2024, 34, 401 - 414.

  115. Zhu, L., and Wu, W.. Dual/Multi-Modal Image-Guided Diagnosis and Therapy Based on Luminogens with Aggregation-Induced Emission. Molecules, 2024, 29, .

  116. Liu, D., Liang, M., Fan, A., Bing, W., and Qi, J.. Hypoxia-responsive AIEgens for precise disease theranostics. Luminescence, 2024, 39, .

  117. Feng, J., Jian, X., Jiang, G., and Wang, J.. Charged aggregation-induced emission luminogens for bioimaging and phototherapy. Luminescence, 2024, 39, .

  118. Xie, Y., Li, Z., Zhao, C., Lv, R., Li, Y., Zhang, Z., Teng, M., and Wan, Q.. Recent advances in aggregation-induced emission–active type I photosensitizers with near-infrared fluorescence: From materials design to therapeutic platform fabrication. Luminescence, 2024, 39, .

  119. Segawa, S., He, X., and Tang, B.Z.. Metal-free click and bioorthogonal reactions of aggregation-induced emission probes for lighting up living systems. Luminescence, 2024, 39, .

  120. Tan, Y., Sun, Y., Huang, W., Zhu, D., Yan, D., Wang, D., and Tang, B.Z.. Thiophene π-bridge-based second near-infrared luminogens with aggregation-induced emission for biomedical applications. Luminescence, 2024, 39, .

  121. Saleh, O.M., Albakri, K.A., Altiti, A., Abutair, I., Shalan, S., Mohd, O.B., Negida, A.S.A.E., Mushtaq, G., and Kamal, M.A.. The Role of Non-coding RNAs in Alzheimer’s Disease: Pathogenesis, Novel Biomarkers, and Potential Therapeutic Targets. CNS and Neurological Disorders - Drug Targets, 2024, 23, 731 - 745.

  122. Xu, W., Zeng, F., Han, Q., and Peng, Z.. Recent advancements of solid-state emissive carbon dots: A review. Coordination Chemistry Reviews, 2024, 498, .

  123. Wen, J., Hua, Q., Ding, S., Sun, A., and Xia, Y.. Recent Advances in Fluorescent Probes for Zinc Ions Based on Various Response Mechanisms. Critical Reviews in Analytical Chemistry, 2024, 54, 3313 - 3344.