2022年书籍

1. Balszuweit, J., Roy, B., and Voskuhl, J.. Aggregation-induced Emission from the Sixth Main Group. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 119 - 141.

2. Huang, Y., and Zhang, O.. Hetero-aggregation-induced Tunable Emission (HAITE) through cocrystal strategy. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 273 - 310.

3. Liu, J., and Tang, B.Z.. The mechanistic understanding of the importance of molecular motions to aggregation-induced emission. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 1 - 25.

4. Gan, F., Shen, C., and Qiu, H.. Circularly polarized luminescence of aggregation-induced emission materials. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 27 - 56.

5. Tavakoli, J., and Tang, Y.. Vortex Fluidics-mediated Fluorescent Hydrogels with Aggregation-induced Emission Characteristics. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 221 - 242.

6. Kam, C., Xie, S., Wong, A.Y., and Chen, S.. Fluorescent Silver Staining Based on a Fluorogenic Ag+ Probe with Aggregation-induced Emission Properties. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 541 - 558.

7. Gu, K., Yan, C., Guo, Z., and Zhu, W.. Morphology modulation of aggregation-induced Emission: From thermodynamic self-assembly to kinetic controlling. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 509 - 530.

8. Hu, M., and Zheng, Y.. Aggregation-induced emission from the restriction of double bond rotation at the Excited State. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 55 - 97.

9. Yang, Z., Zhao, J., Ubba, E., Yang, Z., Zhang, Y., and Chi, Z.. Mechanoluminescence Materials with Aggregation-Induced Emission. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 105 - 137.

10. Yu, Y., Zhao, Z., and Tang, B.Z.. Aggregation-induced Emission Luminogens with Both High-luminescence Efficiency and Charge Mobility. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 485 - 508.

11. Zang, S., and Li, K.. Aggregation-induced Emission in Coinage Metal Clusters. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 443 - 469.

12. Shi, X., Yan, X., and Yang, H.. Aggregation-induced Emission (AIE) Active Metal-Organic Coordination Complexes. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 367 - 410.

13. Wu, D., Zhou, Z., Yan, X., and Yu, G.. The marriage of aggregation-induced emission with discrete supramolecular coordination complexes: Brighter AIEgens for biomedical applications. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 603 - 640.

14. Giel, M.C., and Hong, Y.. The application of click chemistry in the design of aggregation-induced emission luminogens for activity-based sensing. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 53 - 81.

15. Qi, J., Huang, J., and Yan, Y.. Self-assembly of Aggregation-induced Emission Molecules into Micelles and Vesicles with Advantageous Applications. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 179 - 219.

16. Teng, X., and Lü, C.. Aggregation-induced emission-amplified chemiluminescence. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 221 - 231.

17. Velayudham, M., and Thanasekaran, P.. Rhenium(I)-Based Metallacycles for Sensing Applications. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 137 - 180.

18. Peng, Q., Shuai, Z., and Ou, Q.. Computational modeling of AIE luminogens. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 639 - 667.

19. Shimizu, M.. AIE-active rare-metal-free phosphorescent materials. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 253 - 274.

20. Hisano, K., Tsutsumi, O., and Panthai, S.. Liquid crystalline aggregation-induced emission luminogens for optical displays. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 373 - 395.

21. Wong, A.Y., Wang, F., Kam, C., and Chen, S.. AIE molecular probes for biomedical applications. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 449 - 488.

22. Sabouri, S., Yao, B., and Hong, Y.. Recent advances of aggregation-induced emission nanoparticles (AIE-NPs) in biomedical applications. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 489 - 527.

23. Chen, X., Ge, X., Yang, Z., Zhao, J., Yang, Z., Zhang, Y., and Chi, Z.. AIE luminogens exhibiting thermally activated delayed fluorescence. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 275 - 314.

24. Mei, J., and Tian, H.. Photochromic and thermochromic luminescence in AIE luminogens. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 199 - 251.

25. Zhou, H., Chua, M.H., Zhu, Q., and Xu, J.. AIE-active polymers for explosive detection. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 555 - 582.

26. Gao, Z., and Ding, D.. AIE bio-conjugates for biomedical applications. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 529 - 553.

27. Li, H., Li, B., and Tang, B.Z.. Chiral aggregation-induced emission molecules: Design, circularly polarized luminescence, and helical self-assembly. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 87 - 115.

28. Pathak, S.K., and Yang, C.. Aggregation-induced emission luminogens for organic light-emitting diodes. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 315 - 372.

29. Dong, Y., Si, Y., and Zhang, Y.. Mechanochromic luminescence in AIE luminogens. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 165 - 197.

30. Li, M., Wang, D., and Tang, B.Z.. AIE-based chemosensors for vapor sensing. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 583 - 615.

31. Pucci, A.. AIE-active materials for photovoltaics. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 427 - 447.

32. Ito, S., Gon, M., Tanaka, K., and Chujo, Y.. Fundamental chemistry and applications of boron complexes having aggregation-induced emission properties. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 23 - 44.

33. Cametti, M., and Džolić, Z.. AIE-active supramolecular gel systems. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 117 - 164.

34. Deore, M.S., Mehta, H., and Naqvi, S.. Role of Nanomedicine in Treating Ischemic Stroke. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 269 - 292.

35. Siddiqui, Z.A., Waghchoure, A.P., More, S., P., e., Sekar, N.N., and Bhosale, R.S.. Self-assembled functional materials of aggregation-induced emission active molecules. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 105 - 121.

36. P, urangan, P., Vinitha, P., Anthony, A.M., and Ramadurai, M.. Phosphine and thiol protected metal nanoclusters. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 187 - 221.

37. Wang, Q., Zhang, Y., Lyu, Y., Li, X., and Zhu, W.. AIEgen applications in rapid and portable sensing of foodstuff hazards. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 617 - 637.

38. Hu, Y., Zhang, L., Hu, R., and Tang, B.Z.. Aggregation-induced emission polymers. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 45 - 86.

39. Li, Y., Guo, J., Zhao, Z., and Tang, B.Z.. Efficient Non-Doped Organic Light-Emitting Diodes Based on Aggregation-Induced Emission Luminogens. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 1 - 60.

40. Martí-Centelles, V., and McClenaghan, N.D.. Other Photoactive Inorganic Supramolecular Systems: Self-Assembly and Intercomponent Processes. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 733 - 763.

41. Topaz, O.M.. Laser debulking of complex and resistant atherosclerotic plaques in acute coronary syndromes. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 271 - 298.

42. Zhang, S., and Hong, Y.. Measuring Cysteine Exposure in Unfolded Proteins with Tetraphenylethene Maleimide and its Analogs. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 3 - 18.

43. Surguchov, A.P.. Biomarkers in Parkinson’s Disease. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 155 - 180.

44. Virk, A.L., Lin, B., Kan, Z., Qi, J., Dang, Y.P., Lal, R.A., Zhao, X., and Zhang, H.L.. Simultaneous effects of legume cultivation on carbon and nitrogen accumulation in soil. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 75 - 110.

45. Waghchoure, A.P., Reddy, J.P., and Bhosale, R.S.. Fluorescence based miniaturized microfluidic and nanofluidic systems for biomedical applications. In Untitled Book; Eds.; Unknown Publisher: Unknown Address, 2022; pp 217 - 243.