主要论文 |
代表性的学术论文(2018-2024) [21] Wang, X.; Xie, Z.; Wang, R.; Xiao, Y.; Yan, K.; Zhao, Y.; Lin, R.*; Redshaw, C.; Min, Y.; Ouyang X.*; Feng, X.* In-situ Photogenerated Radicals of Hydroxyl Substituted Pyrene-based Triphenylamines with Enhanced Transport and Free Doping/Post-oxidation for Efficient Perovskite Solar Cells, Small 2024, DOI: 10.1002/smll.202311914
[20] Liu, W.; Li, S.; Xie, Z.; Huang, K.; Yan, K.; Zhao, Y.; Redshaw, C.; Feng, X.*; Tang, B. Z. Molecular Engineering towards broad color-tunable emission of pyrene-based aggregation-induced emission luminogens. Adv. Optical Mater. 2024, DOI: 10.1002/adom.202400301 [19] Xie, Z.; Liu, W.; Liu, Y.; Song, X.; Zheng, H.; Su, X.*; Redshaw, C.; Feng, X.* Influence of Steric Effects on the Emission Behavior of Pyrene-Based Blue Luminogens. J. Org. Chem. 2024, 89, 1681−1691. [18] Liu, Y.; Zhang, J.; Wang, X.; Xie, Z.; Zheng, H.; Zhang, S.; Cai, X.; Zhao, Y.; Redshaw, C.; Min, Y.*; Feng, X.* Pyrene-Based Deep-Blue Fluorophores with Narrow-Band Emission. J. Org. Chem. 2024, 89, 3319−3330 [17] Huang, J.*; Liu, Y.; Lin, J.; Su, J.; Redshaw, C.; Feng, X.*; Min, Y.* Novel pyrene-based aggregation-induced emission luminogen (AIEgen) composite phase change fibers with satisfactory fluorescence anti-counterfeiting, temperature sensing, and high-temperature warning functions for solar-thermal energy storage. Adv. Compos. Hybrid Mater. 2023, 6 (4), 126. [16] Feng, X.*; Wang, X.; Redshaw, C.*; Tang, B. Z.* Aggregation behaviour of pyrene-based luminescent materials, from molecular design and optical properties to application. Chem. Soc. Rev. 2023, 52 (19), 6715-6753. [15] Zeng, J.; Qiu, N.; Zhang, J.; Wang, X.; Redshaw, C.; Feng, X.*; Lam, J. W. Y.; Zhao, Z.*; Tang, B. Z.* Y‐Shaped Pyrene‐Based Aggregation‐Induced Emission Blue Emitters for High‐Performance OLED Devices. Adv. Optical. Mater. 2022, 10, 2200917 [14] Wang, X. H.; Song, M. R.; Liu, Y. W.; Feng, X.*; Redshaw, C.; Wang, D.; Zhu, K.; Li, Y.*; Tang, B. Z.* Lipid Droplet-Specific Red Aggregation- Induced Emission Luminogens: Fast Light-Up of Gram-Positive Pathogens for Identification of Bacteria. ACS Mater. Lett. 2022, 4 (8), 1523-1530. [13] Wang, X.; Zhang, J.; Mao, X.; Liu, Y.; Li, R.; Bai, J.; Zhang, J.; Redshaw, C.; Feng, X.*; Tang, B. Z.*, Intermolecular Hydrogen-Bond-Assisted Solid-State Dual-Emission Molecules with Mechanical Force-Induced Enhanced Emission. J .Org. Chem. 2022, 87 (13), 8503-8514. [12] Wang, X.; Zhang, C.; Zeng, J.; Mao, X.; Redshaw, C.; Niu, G.*; Yu, X.; Feng, X.* One-Pot Synthesis of Pyreno[2,1-b]furan Molecules with Two-Photon Absorption Properties. J. Org. Chem. 2022, 87 (19)12741–12748. [11] Liu, Y. W.; Wang, Y. W.; Song, X. Y.; Wang, X. H.; Zhu, H. X.; Zhang, J. C.; Bai, J.; Redshaw, C.; Ni, X. L.; Feng, X.*; Wang, D.; Tang, B. Z.* Tunable fluorescence emission for multi-color light-emitting diodes and voice-activated intelligent lighting applications. J. Mater. Chem. C 2022, 10 (22), 8783-8790. [10] Wang, X. H.; Wang, L. R.; Mao, X. Y.; Wang, Q. S.; Mu, Z. F.; An, L.; Zhang, W.; Feng, X.*; Redshaw, C.; Cao, C. Y.; Qin, A. J.*; Tang, B. Z.* Pyrene-based aggregation-induced emission luminogens (AIEgens) with less colour migration for anti-counterfeiting applications. J. Mater. Chem. C 2021, 9 (37), 12828-12838. [9] Mao, X.; Zhang, J.; Wang, X.; Zhang, H.; Wei, P.; Sung, H. H. Y.; Williams, I. D.; Feng, X.*; Ni, X. L.*; Redshaw, C.; Elsegood, M. R. J.; Lam, J. W. Y.; Tang, B. Z.* An Air-Stable Organic Radical from a Controllable Photoinduced Domino Reaction of a Hexa-aryl Substituted Anthracene. J. Org. Chem. 2021, 86 (11), 7359-7369. [8] Mao, X.; Xie, F.; Wang, X.; Wang, Q.; Qiu, Z.; Elsegood, M. R. J.; Bai, J.; Feng, X.*; Redshaw, C.; Huo, Y.; Hu, J. Y.*; Chen, Q.*, New Quinoxaline‐Based Blue Emitters: Molecular Structures, Aggregation‐Induced Enhanced Emission Characteristics and OLED Application. Chinese J. Chem. 2021, 39 (8), 2154-2162. [7] Li, L.; Zhang, J.; Yang, C.; Huang, L.; Zhang, J.; Bai, J.; Redshaw, C.; Feng, X.*; Cao, C.*; Huo, N.; Li, J.*; Tang, B. Z.*, Stimuli-Responsive Materials from Ferrocene-Based Organic Small Molecule for Wearable Sensors. Small 2021, 17 (46), e2103125. [6] Hu, Z.; Li, Y.; Kang, M.; Islam, M. M.; Chen, M.; Zhang, J.; Xiao, Y.; Feng, X.*; Redshaw, C.; Zhang, M.*; Chen, Q.; Xie, S.*; Lam, J. W. Y.; Tang, B. Z.*, Aggregation‐induced emission luminogen: A new perspective in the photo‐degradation of organic pollutants. EcoMat 2020, 2 (2), e12024. [5] Feng, X.*; Zhang, J.; Hu, Z.; Wang, Q.; Islam, M. M.; Ni, J.-S.; Elsegood, M. R. J.; Lam, J. W. Y.; Zhou, E.*; Tang, B. Z.* J. Mater. Chem. C, 2019, 7, 6932--6940 [4] Feng, X.; Xu, Z.; Hu, Z.; Qi, C.; Luo, D.; Zhao, X.; Mu, Z.; Redshaw, C.; Lam, J. W. Y.; Ma, D.; Tang, B. Z.*, “Pyrene-based blue emitters with aggregationinduced emission features for high-performance organic light-emitting diodes:, J. Mater. Chem. C, 2019, 7, 2283-2290. [3] Islam, M. M.; Hu, Z.; Wang, Q.; Redshaw, C.; Feng, X.* “Pyrene-based Aggregation-induced Emission Luminogens and their Applications”, Mater. Chem. Front., 2019, 3, 762-781. [2] Feng, X.; Li, Y.; He, X.; Liu, H.; Zhao, Z.; Kwok, R. T. K.; Elsegood, M. R. J.; Lam, J. W. Y.; Tang, B. Z.* “A Substitution-Dependent Light-Up Fluorescence Probe for Selectively Detecting Fe3+ Ions and Its Cell Imaging Application”, Adv. Funct. Mater. 2018, 1802833 [1] Feng, X.; Qi, C.; Feng, H.-T.; Zhao, Z.; Sung, H. H. Y.; Williams, I. D.; Kwok, R. T. K.; Elsegood, M. R. J.; La m, J. W. Y.; Tang, B. Z.* “Dual fluorescence of tetraphenylethylene substituted pyrenes with aggregation-induced e mission characteristics for white-light emission” Chem. Sci., 2018, 9, 5679–5687.
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