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2024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, .

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