128. The Amplified Circularly Polarized Luminescence Regulated from D-A type AIE-active Chiral Emitters via Liquid Crystals System, Yang Li,, Kerui Liu, Xiaojing Li, Yiwu Quan* and Yixiang Cheng* Chem. Commun. ,2019, PDF |
127. Amplified electrochemiluminescence signals promoted by the AIE-active moiety of D–A type polymer dots for biosensing, Ziyu Wang, Ningning Wang, Hang Gao, Yiwu Quan,* Huangxian Ju* and Yixiang Cheng* Analyst,2020 ,145, 233-239 PDF |
126. Amplified electrochemiluminescence signals promoted by the AIE-active moiety of D-A type polymer dots for biosensing, Ziyu Wang, Ningning Wang, Hang Gao, Yiwu Quan,* Huangxian Ju* and Yixiang Cheng* Analyst,2019, PDF |
125. High brightness circularly polarized blue emission from non-doped OLEDs based on chiral binaphthyl-pyrene emitters, Yu Zhang, Xueyan Zhang, Haiping Zhang, Yuping Xiao, Yiwu Quan,* Shanghui Ye* and Yixiang Cheng* J. Phys. Chem. C,2019, PDF |
124. Tunable aggregation-induced circularly polarized luminescence of chiral AIEgens via the regulation of mono-/di-substituents of molecules or nanostructures of self-assemblies, Shuwei Zhang,* Jie Fan, Yuxiang Wang, Dong Li, Xiaodong Jia, Yu Yuan and Yixiang Cheng* Mater. Chem. Front.,2019, PDF |
123. High brightness circularly polarized blue emission from non-doped OLEDs based on chiral binaphthyl-pyrene emitters, Xueyan Zhang, Yu Zhang, Yang Li, Yiwu Quan,* Yixiang Cheng * and Yunzhi Li* Chem. Commun.,2019, 55, 9845 PDF |
122. Circularly Polarized Electroluminescence of Thermally Activated Delayed Fluorescence Active Chiral Binaphthyl-Based Luminogens, Yuxiang Wang, Yu Zhang, Wenrui Hu, Yiwu Quan*, Yunzhi Li*, Yixiang Cheng* ACS Appl. Mater. Interfaces.,2019, 11, 29, 26165-26173 PDF |
121. Strong CPL of Achiral AIE-active Dyes Induced by Supramolecular Self-assemble in Chiral Nematic Liquid Crystals (AIE-N*-LCs), Xiaojing Li, Wenrui Hu, Yuxiang Wang, Yiwu Quan,* and Yixiang Cheng* Chem. Commun.,2019, 55, 5179-5182 PDF |
120. Strong Circularly Polarized Electroluminescence based on Chiral Salen-Zn(II) Complex Monomer Chromophore, Yihan Chen, Xiaojing Li, Nengquan Li, Yiwu Quan*, Yixiang Cheng* and Yanfeng Tang* Mater. Chem. Front.,2019, 3, 867-873 PDF |
119. High brightness Circularly Polarized Organic Light-emitting Diodes based on Non-doped AIE-active Chiral Binaphthyl Emitters, Xueyan Zhang, Yu Zhang, Haiping Zhang, Yunzhi Li, Yiwu Quan,* and Yixiang Cheng* Org. Lett., 2019, 21, 439-443. PDF |
118. Donor-Acceptor Conjugated Polymer Dots for Tunable Electrochemiluminescence Activated by Aggregation-Induced Emission-Active Moieties, Ziyu Wang‡, Yaqiang Feng‡, Ningning Wang, Yixiang Cheng*, Yiwu Quan*, and Huangxian Ju* [‡] contributed equally to this work. J. Phys. Chem. Lett., 2018, 9, 5296−5302. PDF |
117. Doping-Free Circularly Polarized Electroluminescence of AIE-Active Chiral Binaphthyl-Based Polymers, Lan Yang, Yu Zhang, Xueyan Zhang, Nengquan Li, Yiwu Quan and Yixiang Cheng* Chem. Commun., 2018, 54, 9663-9666. PDF. |
116. Strong Aggregation-Induced CPL Emission Response Promoted by Chiral Emissive Nematic Liquid Crystals (N*-LCs), Xiaojing Li‡, Qian Li‡, Yuxiang Wang, Yiwu Quan Dongzhong Chen, and Yixiang Cheng* [‡] contributed equally to this work. Chem. Eur. J., 2018, 24, 12607-12612. PDF. |
115. Effective structural modification of traditional fluorophores to obtain organic mechanofluorochromic molecules, Xiaobo Huang, Lebin Qian, Yibin Zhou, Miaochang Liu, Yixiang Cheng*, Huayue Wu J. Mater. Chem. C,2018, 6, 5075-5096. PDF. |
114. Color-tunable AIE-active conjugated polymer nanoparticles as drug carriers for self-indicating cancer therapy via intramolecular FRET mechanism, Ziyu Wang, Cheng Wang, Yayun Fang, Hong Yuan, Yiwu Quan, Yixiang Cheng* Polymer Chemistry, 2018, 9, 3205-3214. PDF. |
113. The Amplified Electrochemiluminescence Response Signal Promoted from the Ir(III)-containing Polymer Complex, Yayun Fang, Ziyu Wang, Yang Li, Yiwu Quan, Yixiang Cheng* Analyst, 2018, 143, 2405-2410. PDF. |
112. Aggregation-induced CPL Response from Chiral Binaphthyl-based AIE-active Polymers via Supramolecular Self-assembled Helical Nanowires, Jing Ma, Yuxiang Wang, Xiaojing Li, Lan Yang, Yiwu Quan, Yixiang Cheng* Polymer, 2018, 143, 184-189. PDF. |
111. The Amplified CPL Emission Response of Chiral BINOL-based Polymers via Zn(II)-coordination Fluorescence Enhancement, Fandian Meng, Fei Li, Lan Yang, Yuxiang Wang, Yiwu Quan, Yixiang Cheng* Journal of Polymer Science Part A: Polymer Chemistry, 2018,56, 1282-1288. PDF. |
110. Amplification effect of circularly polarized luminescence induced from binaphthyl-based zinc(II) chiral coordination polymers, Yuxiang Wang, Xiaojing Li, Lan Yang, Weiyin Sun, Chengjian Zhu, Yixiang Cheng* Mater. Chem. Front., 2018, 2, 554-558. PDF. |
109. Electrochemiluminescent resonance energy transfer of polymer dots for aptasensing, Feng Sun‡, Ziyu Wang‡, Yaqiang Feng, Yixiang Cheng*, Huangxian Ju, Yiwu Quan [‡] contributed equally to this work. Biosensors and Bioelectronics, 2018, 100, 28-34. PDF. |
108. Deep red aggregation-induced CPL emission behavior of four-component tunable AIE-active chiral polymers via two FRET pairs mechanism, Ziyu Wang, Yayun Fang, Xingyu Tao, Yuxiang Wang, Yiwu Quan, Shuwei Zhang,Yixiang Cheng* Polymer, 2017, 130, 61-67. PDF. |
107. Strong Circularly Polarized Luminescence Induced from Chiral Supramolecular Assembly Helical Nanorods, Yuxiang Wang, Xiaojing Li, Fei Li, Weiyin Sun, Chengjian Zhu, Yixiang Cheng* Chem. Commun., 2017, 53, 7505-7508. PDF. |
106. Polymorphism and mechanochromism of N-alkylated 1,4-dihydropyridine derivatives containing different electron-withdrawing end groups, Yunxiang Lei, Yibin Zhou, Lebin Qian, Yuxiang Wang, Miaochang Liu, Xiaobo Huang, Ge Wu, Huayue Wu, Jinchang Dinga, Yixiang Cheng* J. Mater. Chem. C.,2017, 5, 5183-5192. PDF. |
105. Circularly Polarized Luminescence of Chiral 1,8-Naphthalimide-based Pyrene Fluorophore Induced via Supramolecular Self-assembly, Shuai Liu‡, Fei Li‡, Yuxiang Wang, Xiaojing Li, Chengjian Zhu, Yixiang Cheng* [‡] contributed equally to this work. J. Mater. Chem. C.,2017, 5, 6030-6036. PDF. |
104. Tunable AICPL of (S)-Binaphthyl-based Three-component Polymers via FRET Mechanism, Ziyu Wang, Shuai Liu, Yuxiang Wang, Yiwu Quan, Yixiang Cheng* Macromol. Rapid. Comm., 2017, 38, 1700150. PDF. |
103. Reversal AICD from Axial Chirality Transfer via Self-Assembled Helical Nanowires, Fandian Meng, Yuan Sheng, Fei Li, Chengjian Zhu, Yiwu Quan, Yixiang Cheng* RSC Adv., 2017, 7, 15851-15856. PDF. |
102. Circular Polarized Luminescence based Chirality Transfer of Chiral BINOL Moiety via Rigid π-Conjugation Chain Backbone Structures, Fandian Meng, Yunzhi Li, Wenjie Zhang, Shuhua Li, Yiwu Quan, Yixiang Cheng* Polymer Chemistry, 2017, 8, 1555-1561. PDF. |
101. Highly Enantioselective Recognition of Alaninol via the Chiral BINAM-based Fluorescence Polymer Sensor, Wenjie Zhang, Guo Wei,Ziyu Wang, Jing Ma, Chengjian Zhu, Yixiang Cheng* Polymer, 2016, 101, 93-97. PDF. |
100. Regulating Circularly Polarized Luminescence Signals of Chiral Binaphthyl-based Conjugated Polymers by Tuning Dihedral Angles of Binaphthyl Moieties, Yuxiang Wang, Yunzhi Li, Shuai Liu, Fei Li, Chengjian Zhu, Shuhua Li, Yixiang Cheng* Macromolecules, 2016, 49,5444-5451. PDF. |
99. Circularly Polarized Luminescence of Chiral Perylene diimides-based Enantiomers Triggered by Supramolecular Self-Assembly, Fei Li,‡ Yunzhi Li,‡ Guo Wei, Yuxiang Wang, Shuhua Li, Yixiang Cheng* [‡] contributed equally to this work. Chem. Eur. J., 2016,22, 12910-12915 . PDF. |
98. The effect of N-alkyl chain length on the photophysical properties of indene-1,3-dionemethylene-1,4-dihydropyridine derivatives, Yanze Liu, Yunxiang Lei, Miaochang Liu, Fei Li, Hongping Xiao, Jiuxi Chen, Xiaobo Huang, Wenxia Gao, Huayue Wu, Yixiang Cheng* J. Mater. Chem. C.,2016, 4, 5970-5980. PDF. |
97. Strong and Reversal Circularly Polarized Luminescence Emission of Chiral 1,8-Naphthalimide Fluorophore Induced by Excimer Emission and Orderly Aggregation, Yuan Sheng, Jing Ma, Shuai Liu, Yuxiang Wang, Chengjian Zhu, Yixiang Cheng* Chem. Eur. J., 2016, 22, 9519-9522. PDF. |
96. Solid Phase Reaction Method for preparation of carbon dots and multi-purpose applications, Yuliang Jiang, Guo Wei, Wenjie Zhang, Ziyu Wang, Yixiang Cheng*, Zhihui Dai Sens. Actuators. B: Chem., 2016, 234, 15-20. PDF.
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95. An “off-on” fluorescent probe based on rhodamine derivative for detection of both Cu2+ and L-Methionine and living cells imaging, Yuliang Jiang, Guo Wei, Ronghua Shen, Yixiang Cheng*, Bingxiang Wang Tetrahedron, 2016, 72, 2354-2358. PDF. |
94. Indene-1,3-dionemethylene-4H-pyran derivatives containing alkoxy chains of various lengths: Aggregation-induced emission enhancement, mechanofluorochromic properties and solvent-induced emission changes, Yanze Liu, Yunxiang Lei, Fei Li, Jiuxi Chen, Miaochang Liu, Xiaobo Huang, Wenxia Gao, Huayue Wu, Jinchang Ding, Yixiang Cheng* J. Mater. Chem. C.,2016, 4, 2862-2870. PDF. |
93. Silole-Containing Polymer Nanodot: An Aqueous Low-Potential Electrochemiluminescence Emitter for Biosensing, Yaqiang Feng,‡ Chunhui Dai,‡ Jianping Lei, Huangxian Ju, Yixiang Cheng* [‡] contributed equally to this work. Anal. Chem., 2016, 88, 845-850. PDF. |
92. CPL Emission of Chiral BINOL-based Polymers via Chiral Transfer of the Conjugated Chain Backbone Structure, Fei Li, Yuxiang Wang, Yuan Sheng, Guo Wei, Yixiang Cheng*, Chengjian Zhu RSC Adv.,2015, 5, 105851-105854. PDF. |
91. Multi-Stimuli Responsive Fluorescent Properties of D-π-A Indene-1,3-dionemethylene-1,4-dihydropyridine Derivatives, Yunxiang Lei, Yanze Liu, Yang Guo, Jiuxi Chen, Xiaobo Huang, Wenxia Gao, Lebin Qian, Huayue Wu, Miaochang Liu, Yixiang Cheng* J. Phys. Chem. C.,2015, 119, 23138-23148. PDF.
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90. Red Color CPL Emission of Chiral 1,2-DACH-based Polymers via Chiral Transfer of the Conjugated Chain Backbone Structure, Fei Li, Yuxiang Wang, Ziyu Wang, Yixiang Cheng*, Chengjian Zhu Polymer Chemistry, 2015, 6, 6802-6805. PDF.
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89.Central-to-axial chirality transfer-induced CD Sensor for Chiral Recognition and ee value detection of1,2-DACH enantiomers, Fei Li, Yuxiang Wang, Fandian Meng, Chunhui Dai, Yixiang Cheng*, Chengjian Zhu Macromol. Chem. Phys.,2015, 216,1925-1929. PDF. |
88. Boron ketoiminate-based conjugated polymers with tunable AIE behaviours and their applications for cell imaging, Chunhui Dai, Dongliang Yang, Wenjie Zhang, Xiao Fu, Qingmin Chen, Chengjian Zhu, Yixiang Cheng*, Lianhui Wang J. Mater. Chem. B.,2015, 3, 7030-7036. PDF. |
87. Reversal Circularly Polarized Luminescence of AIE-active Chiral Binaphthyl Molecules from Solution to Aggregation, Yuan Sheng, Dong Shen, Wenjie Zhang, Hongxing Zhang, Chengjian Zhu, Yixiang Cheng* Chem. Eur. J., 2015, 21, 13196-13200. PDF. |
86. Study on tunable AIE (AIEE) of boron ketoiminate-based conjugated polymers for live cell imaging, Chunhui Dai, Dongliang Yang, Xiao Fu, Qingmin Chen, Chengjian Zhu, Yixiang Cheng*, Lianhui Wang Polymer Chemistry, 2015, 6, 5070-5076. PDF. |
85.Circularly Polarized Luminescence of AIE-active Chiral O-BODIPY Induced from Intramolecular Energy Transfer, Shuwei Zhang, Yuxiang Wang, Fandian Meng, Chunhui Dai, Yixiang Cheng*, Chengjian Zhu, Chem. Commun., 2015, 51, 9014-9017. PDF. |
84. Far-Red/Near-Infrared Fluorescent Conjugated Polymer Nanoparticles with Size-Dependent Chirality and Cell Imaging Applications, Chunhui Dai, Dongliang Yang, Wenjie Zhang, Biqing Bao, Yixiang Cheng*, Lianhui Wang, Polymer Chemistry, 2015, 6, 3962-3969. PDF. |
83. Microwave-assisted preparation of N-doped carbon dots as a biosensor for electrochemical dopamine detection, Yuliang Jiang, Bingxiang Wang,Fandian Meng, Yixiang Cheng*,Chengjian Zhu, J. Colloid Interface Sci., 2015, 452, 199-202. PDF. |
82. N-doped carbon dots synthesized by rapid microwave irradiation as highly fluorescent probe for Pb2+ detection, Yuliang Jiang, Yuxiang Wang, Fandian Meng, Bingxiang Wang, Yixiang Cheng*, Chengjian Zhu, New J. Chem, 2015, 39, 3357-3360. PDF. |
81. Aggregation-induced Fluorescence Emission Properties of Dicyanomethylene-1,4-dihydropyridine Derivatives, Hui Li, Yang Guo, Guoxing Li, Hongping Xiao, Yunxiang Lei, Xiaobo Huang, Jiuxi Chen, Huayue Wu, Jinchang Ding, Yixiang Cheng*, J. Phys. Chem. C.,2015, 119, 6737-6748. PDF. |
80. Polymer-based Fluorescence Sensor incorporating Thiazole Moiety for Direct and Visual Detection of Hg2+ and Ag+, Fei Li, Fandian Meng, Yuxiang Wang, Chengjian Zhu, Yixiang Cheng*, Tetrahedron, 2015, 71, 1700-1704. PDF.
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79. Aggregation-induced Circularly Polarized Luminescence of (R)-Binaphthyl-based AIE-active Chiral Conjugated Polymer with Self-Assembly helical Nanofibers, Shuwei Zhang, Yuan Sheng, Guo Wei,Yiwu Quan, Yixiang Cheng*, Chengjian Zhu, Polymer Chemistry, 2015, 6, 2416-2422. PDF. |
78. An In situ Generated Achiral Cu(II)-containing Polymer Complex Sensor for Enantioselective Recognition Induced from L-/D-Histidine Enantiomers, Guo Wei, Fandian Meng, Yuxiang Wang, Yixiang Cheng*, Chengjian Zhu, Macromol. Rapid. Comm., 2014, 35, 2077-2081. PDF. |
77. (S)-Binaphthalene-based Fluorescence Polymer Sensors for Direct and Visual F- Detection, Fei Li, Guo Wei, Yuan Sheng, Yiwu Quan, Yixiang Cheng*, Chengjian Zhu, Polymer, 2014, 55, 5689-5694. PDF. |
76. Chiral Sensing of Eu(III)-Containing Achiral Polymer Complex from Chiral Amino Acids Coordination Induction, Chunhui Dai, Yuxiang Wang, Yiwu Quan, Qingmin Chen, Yixiang Cheng*, Chengjian Zhu, Journal of Polymer Science Part A: Polymer Chemistry,2014, 52, 3080-3086. PDF.
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75. Hg2+-induced in situ generated radical cation of (S)-BINOL-based polymer for highly enantioselective recognition of phenylalaninol, Jiemin Jiao, Fei Li, Shuwei Zhang, Yiwu Quan, Wenhua Zheng, Yixiang Cheng*, Chengjian Zhu, Macromol. Rapid. Comm., 2014, 35, 1443-1449. PDF. |
74. ‘Click’-BINOL Based Chiral Ionic Polymers for Highly Enantioselective Recognition of Tryptophan Anion, Guo Wei,Yuliang Jiang, Fei Li, Yiwu Quan, Yixiang Cheng*, Chengjian Zhu, Polymer Chemistry, 2014, 5, 5218-5222. PDF. |
73. A Novel Low-Bandgap Conjugated Polymer based on Ru(II) bis(acetylide) Complex and BODIPY Moieties, Shuwei Zhang, Yuan Sheng, Guo Wei,Yiwu Quan, Yixiang Cheng*,Chengjian Zhu, |
72. (S)-BINOL-based boronic ester fluorescence sensors for enantioselective recognition of α-phenyl ethylamine and phenylglycinol, Jiemin Jiao, Guo Wei, Fei Li, Xuerong Mao, Yixiang Cheng*, Chengjian Zhu, RSC Adv.,2014, 4, 5887-5892. PDF. |
71. Synthesis and Tunable Chiroptical Properties of Chiral BODIPY-based D-π-A Conjugated Polymers, Xiao Ma, Eman Abdel Azeem, Xiaolin Liu, Yixiang Cheng*, Chengjian Zhu, J. Mater. Chem. C.,2014, 2, 1076-1084. PDF. |
70. Fluorescence Study of Chiral β-ketoiminate-based Newly Synthesized Boron Hybrid Polymers, Xiaoxiang Jiang, Xunhua Liu, Yuliang Jiang, Yiwu Quan, Yixiang Cheng*, Chengjian Zhu, Macromol. Chem. Phys.,2014, 215, 358-364. PDF. |
69. A Novel Chiral Binaphthalene-based Fluorescence Polymer Sensor for Highly Enantioselective Recognition of Phenylalaninol Enantiomers, Guo Wei, Shuwei Zhang, Chunhui Dai, Yiwu Quan, Yixiang Cheng*, Chengjian Zhu, |
68. Circularly Polarized Luminescence and Tuning Chromaticity of Eu(III)-grafting Chiral Polymer Based on Variable Position of the Substitution, Junfeng Li, Fei Li, Xiaoxiang Jiang, Guo Wei, Yixiang Cheng*, Chengjian Zhu, Macromol. Rapid. Comm., 2013, 34, 1312-1318. PDF. |
67. Tetraphenylethene-based Chiral Polymer: An AIE Luminogen with High and Tunable CPL Dissymmetry Factor, Xunhua Liu, Jiemin Jiao, Xiaoxiang Jiang, Junfeng Li, Yixiang Cheng*,Chengjian Zhu, J. Mater. Chem. C.,2013, 1, 4713-4719. PDF. |
66. A Helical Chiral Polymer-based Chromo-Fluorescence and CD Response Sensor for Selective Detection of Trivalent Cations, Lu Wang, Fei Li, Xunhua Liu, Guo Wei, Yixiang Cheng*, Chengjian Zhu, |
66. Hydrogen bond induced fluorescence recovery of coumarin-based sensor system, Xiaobo Huang, Yu Dong, Qianwen Huang, Yixiang Cheng*, Tetrahedron Letters, 2013, 54, 3822-3825. PDF. |
65. Synthesis of a New Linear Chiral Polymer Based On Polybinaphthols and Its Application In Enantioselective Addition of Et2Zn to Aldehydes, Linglin Wu, Lifei Zheng, Xiaobo Huang, Yixiang Cheng*, Acta Polymerica Sinica, 2013, 6, 802. |
64. Near-Infrared Emission of Novel Bent-core V-shape Conjugated Polymers based on B, O-Chelated Azadipyrromethene Structure, Xiao Ma, Xiaoxiang Jiang, Shuwei Zhang, Xiaobo Huang, Yixiang Cheng*, Chengjian Zhu, Polymer Chemistry, 2013,4, 4396-4404. PDF. |
63. Synthesis and Characterization of BTA-based D-π-A Type Copolymers, Xuerong Mao, Xiaoxiang Jiang, Hongwen Hu, Yixiang Cheng*, Chengjian Zhu, Synlett,2013, 24, 1505-1508. PDF. |
62. Silver-Catalyzed Highly Regioselective Phosphonation of Arenes Bearing an Electron-Withdrawing Group, Xuerong Mao, Xiao Ma, Shuwei Zhang, Hongwen Hu, Yixiang Cheng*, Chengjian Zhu, Eur. J. Org. Chem, 2013, 20, 4245-4248. PDF. |
61. Chiral Sensing for Induced Circularly Polarized Luminescence by Using an Eu(III)-containing Polymer and D- or L-Proline Fengyan Song, Guo Wei, Xiaoxiang Jiang, Fei Li, Yixiang Cheng*, Chenjian Zhu, Chem. Commun.,2013, 49, 5772-5774. PDF. |
60. Chiral Ionic Polymer for Direct Visual Enantioselective Recognition of α-Amino acid Anion, Fengyan Song, Na Fei, Fei Li, Shuwei Zhang, Yixiang Cheng*, Chengjian Zhu, Chem. Commun.,2013, 49, 2891-2893. PDF. |
59. Aza-BODIPY-based D-π-A Conjugated Polymers with Tunable Band Gap: Synthesis and Near-Infrared Emission, Xiao Ma, Xuerong Mao, Shuwei Zhang, Xiaobo Huang, Yixiang Cheng*, Chengjian Zhu, Polymer Chemistry, 2013, 4, 520-527. PDF. |
58. Couramin-based Chiral Fluorescence Sensor for Highly Enantioselective Recognition of Phenylalaninol, Jiemin Jiao, Xunhua Liu, Xuerong Mao, Junfeng Li, Yixiang Cheng*, Chengjian Zhu, New J. Chem, 2013, 37, 317-322. PDF. |
57. A Highly Sensitive and Selective Fluorescence Chemosensor for Cu2+ and Zn2+ Based on Solvent Effect, Xiaobo Huang, Qian Miao, Lu Wang, Jiming Jiao, He Xianjing, Cheng Yixiang*, Chin. J. Chem, 2013, 31, 195-199. PDF. |
56. In situ Generated 1:1 Zn(II)-containing Polymer Complex Sensor for highly Enantioselective Recognition of N-Boc-protect ed Alanine, Jiali Hou, Fengyan Song, Lu Wang, Guo Wei, Yixiang Cheng*, Chengjian Zhu, Macromolecules, 2012, 45, 7835-7842. PDF. |
55. In situ Cu(II)-containing Chiral Polymer Complex Sensor for Enantioselective Recognition of Phenylglycinol, Lu Wang, Fengyan Song, Jiali Hou, Junfeng Li, Yixiang Cheng*, Chengjian Zhu, Polymer, 2012, 53, 6033-6038. PDF. |
54. Excitation Induced Emission Color Change based on Eu(III)-Zn(II)-containing Polymer Complex, Junfeng Li, Fengyan Song, Lu Wang, Jiemin Jiao, Yixiang Cheng*, Chengjian Zhu, Macromol. Rapid. Comm., 2012, 33, 1268-1272. PDF. |
53. Tuning Emission Chromaticity Based on Energy Transfer of the Conjugated Polymer to Eu(TTA)3 Moiety, Junfeng Li, Lu Wang, Xunhua Liu, Xiaoxiang Jiang, Yixiang Cheng*, Chengjian Zhu, Polymer Chemistry, 2012, 3, 2578-2582. PDF. |
52. Large Stokes Shift Chiral Polymers Containing (R,R)-Salen-based Binuclear Boron Complex: Synthesis, Characterization, and Fluorescence Properties, Xiao Ma, Jiemin Jiao, Jing Yang, Xiaobo Huang, Yixiang Cheng*, Chengjian Zhu, Polymer, 2012, 53, 3894-3899. PDF. |
51. A highly regioselective Iron-catalyzed sp3 C-H amination of tertiary amides, Xuerong Mao, Yuanzhao Wu, Xiaoxiang Jiang, Xunhua Liu, Yixiang Cheng*, Chengjian Zhu, RSC Advances, 2012, 2, 6733-6735. PDF. |
50. Synthesis and Fluorescence Properties of Chiral Near-Infrared Emissive Polymers Incorporating BODIPY Derivatives and (S)-Binaphthyl, Yuanzhao Wu, Xuerong Mao, Xiao Ma, Xiaobo Huang, Yixiang Cheng*, Chengjian Zhu, Macromolecular Chemistry and Physics.,2012, 21, 2238-2245. PDF. |
49. Cu2+ triggered fluorescence sensor based on fluorescein derivative for Pd2+ detection, Guo Wei, Lu Wang, Jiemin Jiao, Jiali Hou, Yixiang Cheng*, Chengjian Zhu, Tetrahedron Letters, 2012, 53, 3459-3462. PDF. |
47. Synthesis and Characterization of Near-Infrared Emissive BODIPY-Based Conjugated Polymers, Yuanzhao Wu, Xiao Ma, Jiemin Jiao, Yixiang Cheng*, Chengjian Zhu, Synlett, 2012, 5, 778-782. PDF. |
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44. (R,R)-salen/salan-based polymer fluorescence sensors for Zn2+ detection, Fengyan Song, Xiao Ma, Jiali Hou, Xiaobo Huang, Yixiang Cheng*, Chengjian Zhu, Polymer, 2011, 52, 6029-6036. PDF. |
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41. A Highly Selective and Sensitive Polymer-based Fluorescence Sensor for Hg2+-Ion Detection via Click Reaction, Yuanzhao Wu, Yu Dong, Junfeng Li, Xiaobo Huang, Yixiang Cheng*, Chengjian Zhu, Chemistry-An Asian Journal, 2011, 6, 2725-2729. PDF. |
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36. Fluorescence sensors based on chiral polymer for highly enantioselective recognition of phenylglycinol, Ying Xu, Lifei Zheng, Xiaobo Huang, Yixiang Cheng*, Chengjian Zhu, Polymer, 2010, 51, 994-997. PDF. |
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34. Polymer-based fluorescence sensor incorporating triazole moieties for Hg2+ detection via click reaction, Xiaobo Huang, Jie Meng, Yu Dong, Yixiang Cheng*, Chengjian Zhu, Polymer, 2010, 51, 3064-3067. PDF. |
33. A fluorescent chemosensor based on optically active 2,2′-binaphtho-20-crown-6 for metal ions, Qian Miao, Hui Huang, Xiaobo Huang, Ying Xu, Lili Zong, Yixiang Cheng*, Polymer International, 2010, 59, 712-718. PDF. |
32. Polymer-based fluorescence sensors incorporating chiral binaphthyl and benzo[2,1,3]thiadiazole moieties for Hg2+ detection, Xiaobo Huang, Jie Meng, Yu Dong, Yixiang Cheng*, Chengjian Zhu, Journal of Polymer Science Part A-Polymer Chemistry, 2010,48, 997-1006. PDF. |
29. Energy Transfer from Poly(Vinylcarbazole) to a Chiral Conjugated Polymer, X. Zhang, Hui Huang, Y. Qiao, C.X. Xu, Yixiang Cheng*, Y.P. Cui, International Journal of Modern Physics, 2009, 23, 5891-5897. PDF. |
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19. Bifunctional Enantioselective Ligands of Chiral BINOL Derivatives for Asymmetric Addition of Alkynylzinc to Aldehydes, Xiaowei Zou, Lifei Zheng, Linglin Wu, Lili Zong, Yixiang Cheng*, Chinese Journal of Chemistry, 2008, 26, 373-378. PDF. |
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