136.Aggregation-Induced   Electrochemiluminescence of Conjugated Pdots Containing a Trace Ir(III)   Complex: Insights into Structure–Property Relationships 

       Hang Gao, Nan Zhang, Jianbin Pan, Yiwu   Quan, Yixiang Cheng, Hongyuan Chen, Jingjuan Xu 
ACS Applied Materials & Interfaces, 2020, 

134.Strong‐Induced   CPL Emission Promoted from Achiral Conjugated Polymer‐Containing Emissive   Nematic Liquid Crystals (P‐N*‐LCs)  

       Yihan Chen, Zhaoran Xu, Wenrui Hu, Xiaojing Li,   Yixiang Cheng, Yiwu Quan
Macromolecular Rapid Communications, 2020,

133.High   Brightness Circularly Polarized Electroluminescence from Conjugated Polymer   F8BT Induced by Chiral Binaphthyl-pyrene,

        Xueyan Zhang, Zhaoran Xu, Yu Zhang, Yiwu Quan   and Yixiang Cheng   
 J. Mater. Chem. C, 2020, 8, 15669 

132.Trace   Ir(III) complex enhanced electrochemiluminescence of AIE-active Pdots in   aqueous media,

       Hang Gao, Nan Zhang, Yang Li, Wei Zhao, Yiwu Quan,   Yixiang Cheng, Hong-Yuan Chen, Jing-Juan Xu 
Sci China Chem, 2020, 5, 715-721, 

131.Solution-Processed   White Circularly Polarized Organic Light-Emitting Diodes Based on Chiral   Binaphthyl Emitters,

       Yu Zhang, Jie Li, Yiwu Quan, Shanghui Ye, Yixiang   Cheng 
Chem. Eur.   J., 2020,      

130.Strong   CPL of achiral liquid crystal fluorescent polymer via the regulation of   AIE-active chiral dopant,

         Kerui Liu, Yihao Shen, Xiaojing   Li, Yu Zhang, Yiwu Quan* and  Yixiang   Cheng*  
Chem. Commun. ,2020

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. ,2020,56, 1117-1120

126. Dual   resonance energy transfer in triple-component polymer dots to enhance   electrochemiluminescence for highly sensitive bioanalysis,

Ningning   Wang, Ziyu Wang, Lizhen Chen, Weiwei Chen, Yiwu Quan, Yixiang Cheng* and   Huangxian Ju *

Chem. Sci., 2019,10,   6815-6820

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,  123,   40, 24746-24753

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, 3,   2066-2071 

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

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 

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

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

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.   

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.   

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.   

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.   

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.   

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.   

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.   

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.   

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.   

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.   

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.   

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.  

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.   

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.   

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. 

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.   

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.   

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.  

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.   

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.   

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 .   

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.   

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.  

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. 

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.   

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.   

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. 

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.   

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.   

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.

89. Central-to-axial   chirality transfer-induced CD Sensor for Chiral Recognition   and ee value detection of 1,2-DACH enantiomers,

      Fei   Li, Yuxiang Wang, Fandian Meng, Chunhui Dai, Yixiang Cheng*, Chengjian Zhu

Macromol.   Chem. Phys.,2015, 216,1925-1929.

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.  

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.

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.   

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.   

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. 

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.   

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.   

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.   

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.

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.     

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.   

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. 

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.   

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.   

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.   

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,

      Journal   of Polymer Science Part A: Polymer Chemistry,2014, 52, 1686-1692.   

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.

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.   

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.   

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,

      Chem.   Eur. J., 2013, 19,   16066-16071.   

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.   

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.

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,

Journal of   Polymer Science Part A: Polymer Chemistry,2013, 51,   4070-4075.   

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.   

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. 

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.   

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.   

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.   

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.   

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. 

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.   

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.   

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.   

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.   

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.   

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.   

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.   

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.   

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.   

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.   

48.   Salen-Based Chiral Fluorescence Polymer Sensor for Enantioselective   Recognition of alpha-Hydroxyl Carboxylic Acids,

      Fengyan   Song, Guo Wei, Lu Wang, Jiemin Jiao, Yixiang Cheng*, Chengjian Zhu,

J. Org. Chem., 2012, 77,   4759–4764.   

 (SYNFACTS,   Highlights in current synthetic organic chemistry, Reg-No.: S06512SF).

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.   

46.   Polymer-based colorimetric and turn off fluorescence sensor incorporating   benzo[2,1,3]thiadiazole moiety for Hg²⁺ Detection,

      Xiao   Ma, Fengyan Song, Lu Wang, Yixiang Cheng*, Chengjian Zhu,

 Journal   of Polymer Science Part A: Polymer Chemistry, 2012, 50,   517-522.   

45. A highly   selective and sensitive polymer-based OFF-ON fluorescent sensor   for Hg²⁺ detection   incorporating salen and perylenyl moieties,

      Junfeng   Li , Yuanzhao Wu , Fengyan Song , Guo Wei , Yixiang Cheng*, Chengjian Zhu,

 J.   Mater. Chem., 2012, 22,   478-482.   

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.   

43. A   polymer based fluorescent sensor for Zn²⁺ detection and its application   for constructing logic gates,

      Yu   Dong, Yuanzhao Wu, Xiaoxiang Jiang, Xiaobo Huang, Yixiang Cheng*, Chengjian   Zhu,

 Polymer, 2011, 52,   5811-5816.   

42.   Polymer-based fluorescent sensor incorporating 2,2′-bipyridyl and   benzo[2,1,3]thiadiazole moieties for Cu²⁺ detection,

      Yu   Dong, Biyhaliy Koken, Xiao Ma, Lu Wang, Yixiang Cheng*, Chengjian Zhu,

 Inorganic   Chemistry Communications, 2011, 14,   1719-1722.   

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.   

40. Na⁺ Triggered   Fluorescence Sensors for Mg²⁺ Detection Based on a Coumarin   Salen Moiety,

Yu Dong , Junfeng Li , Xiaoxiang Jiang , Fengyan Song , Yixiang Cheng*,   and Chengjian Zhu,

 Org.   Lett., 2011, 13,   2252–2255.  

39. A   fluorescence sensor based on chiral polymer for highly enantioselective   recognition of phenylalaninol,

      Jie   Meng, Wei Guo, Xiaobo Huang, Yu Dong, Yixiang Cheng*, Chengjian Zhu,

 Polymer, 2011, 52,   363-367.   

38. L-Proline   promoted fluorescent sensor for Mg²⁺ detection in a multicomponent   sensory system,

      Yu   Dong, Xuerong Mao, Xiaoxiang Jiang, Jiali Hou, Yixiang Cheng*, Chengjian Zhu,

 Chem.   Commun., 2011, 47,   9450–9452.   

37. A highly   selective fluorescent sensor for Hg²⁺ based on the water-soluble   poly(p-phenyleneethynylene),

      Jie   Li, Jie Meng, Xiaobo Huang, Yixiang Cheng*, Chengjian Zhu,

 Polymer, 2010, 51,   3425-3430.   

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.   

35. Fluorescence   Polymer Incorporating Triazole and Benzo[2,1,3]thiadiazole Moieties for Ni²⁺ Detection,

      Xiaobo   Huang, Yu Donga, Jie Menga, Yixiang Cheng*, Chengjian Zhu,

 Synlett, 2010, 12,   1841-1844.   

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.   

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.   

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.   

31. Click   Chemistry Approach to Fluorescence-Based Polybinaphthyls Incorporating a   Triazole Moiety for Hg²⁺ Recognition,

      Lifei   Zheng, Xiaobo Huang, Yuguang Shen, Yixiang Cheng*,

 Synlett, 2010, 3,   453-456.   

30. A Highly   Selective Fluorescence-Based Polymer Sensor Incorporating an (R,R)-Salen   Moiety for Zn²⁺ Detection,

      Ying   Xu, Jie Meng, Lingxing Meng, Yu Dong, Yixiang Cheng*, Chengjian Zhu,

Chem. Eur.   J., 2010, 16,   12898-12903.   

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.   

28. A   Fluorescent Chemosensor for Metal Ions Based on the Conjugated Polymer   Containing 2, 3-Naphtho-18-Crown-6,

      Qian   Miao, Hui Huang, Xiaobo Huang, Yin Xu, Yixiang Cheng*,

 Chinese   Journal of Inorganic Chemistry, 2009, 25,   2182-2188.   

27. A highly   selective and sensitive fluorescence chemosensor based on optically active   polybinaphthyls for Hg²⁺,

      Xiaobo   Huang, Ying Xu, Lifei Zheng, Jie Meng, Yixiang Cheng*,

 Polymer, 2009, 50,   5996-6000.   

26.   Synthesis and properties of chiral helical polymers based on optically active   polybinaphthyls,

      Xiaobo   Huang, Yin Xu, Qian Miao, Lili Zong, Hongwen Hu, Yixiang Cheng*,

 Polymer, 2009, 50,   2793-2805.   

25.   Synthesis and Fluorescent Properties of Chiral Polymer Complexes   Incorporating Bipyridine and Eu(III) or Gd(III),

      Lili   Zong, Qian Miao, Yan Liu, Jinqian Xu, Xiaobo Huang, Yixiang Cheng*,

Chinese   Journal of Chemistry, 2009, 27,   1179-1185.   

24.   Fluorescent Chemosensor Based on the Conjugated Polymer Incorporating 2,2   '-Bipyridyl Moiety for Transition Metal Ions,

      Qian   Miao, Xiaobo Huang, Yaqian Cheng, Yan Liu, Lili Zong, Yixiang Cheng*,

 Journal   of Applied Polymer Science, 2009, 111,   3137-3143.   

23.   Enantioselective arylation of aldehydes catalyzed by a soluble optically   active polybinaphthols ligand,

      Xiaobo   Huang, Linglin Wu, Jinqian Xu, Lili Zong, Hongwen Hu, Yixiang Cheng*,

      Tetrahedron   Letters, 2008, 49,   6823-6826.   

22.   Synthesis and Fluorescent Properties of a Chiral Conjugated Polymer Based on   (S)-2,2 '-Binaphtho-20-crown-6,

      Huang   Hui; Miao Qian; Kang Yixiong, Xiaobo Huang, Jinqian Xu, Yixiang Cheng*,

      Bulletin   of the Chemical Society of Japan, 2008, 81,   1116-1124.   

21.   Fluorescent properties on conjugated polymer complexes incorporating Eu(III)   and Gd(III),

      Miao   Qian; Mang Shu-Wei; Huang Xiao-Bo, Yaqian Cheng, Lili Zong, Yixiang Cheng*,

 Chinese   Journal of Inorganic Chemistry, 2008, 24, 723-730.   

20. A   fluorescent chemosensor for transition-metal ions based on optically active   polybinaphthyl and 2,2 '-bipyridine,

      Yan   Liu, Qian Miao, Shuwei Zhang, Xiaobo Huang, Lifei Zheng, Yixiang Cheng*,

Macromolecular   Chemistry and Physics, 2008, 209,   685-694.   

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.   

18.   Fluorescent chemosensor for metal ions based on optically active   polybinaphthyls and 1,3,4-oxadiazole,

      Yan   Liu, Lili Zong, Lifei Zheng, Linglin Wu, Yixiang Cheng*,

      Polymer, 2007, 48,   6799-6807.   

17.   Synthesis and enantioselectivities of soluble polymers incorporating   optically active binaphthyl and binaphthol,

Xiaowei Zou,   Shuwei Zhang, Yixiang Cheng*, Yan Liu, Hui Huang, Chunyan Wang,

   Journal   of Applied Polymer Science, 2007, 106,   821-827.   

16.   Fluorescent chemosensory conjugated polymers based on optically active   polybinaphthyls and 2,2 '-bipyridyl units,

      Yan   Liu, Shuwei Zhang, Qian Miao, Lifei Zheng, Lili Zong, Yixiang Cheng*,

 Macromolecules, 2007, 40,   4839–4847.   

15.   Synthesis and asymmetric enantioselective addition of chiral polybinaphthyl   and polybinaphthol ligands,

    Xiaowei   Zou, Huaichi Ye, Shuwei Zhang, Yan Liu, Chunyan Wang, Yixiang Cheng*,

 Chinese   Journal of Chemistry, 2007, 25,   992-997.   

14.   Synthesis and characterization of chiral polymer complexes incorporating   polybinaphthyls, bipyridine, and Eu(III),

      Yixiang   Cheng*, Xiaowei Zou, Dan Zhu, Tingshun Zhu, Yan Liu, Shuwei Zhang, Hui Huang,

      Journal   of Polymer Science Part A-Polymer Chemistry, 2007, 45,   650-660.   

13.   Synthesis and characterization of chiral polymers incorporating chiral (R)-1,1   '-binaphthyl units,

      Jinfeng   Song, Xiaowei Zou, Yixiang Cheng*, Zhiliu Wang,

Acta   Polymerica Sinica, 2006, 8,   1007-1012.   

12.   Polybinaphthyls incorporating (R)-2,2 '-binaphtho-20-crown-6 and   naphthyl moities,

      Dan   Zhu, Yixiang Cheng*, Xiaowei Zou, Lingwu Chen, Jinfeng Song, Zhiliu Wang,

 Chinese   Journal of Polymer Science, 2006, 24,   619-625.   

11.   Polybinaphthyls incorporating chiral 2,2 '-binaphthyl and isoquinoline   moieties by Sonogashira reaction,

      Yixiang   Cheng*, Jinfeng Song, Xiaowei Zou, Shuwei Zhang, Yan Liu, Hui Huang,

 Polymer, 2006, 47,   6598-6605.  

10.   Synthesis of chiral conjugated polybinaphthyls by Sonogashira reaction,

      Yixiang   Cheng*, Lingwu Chen*, Xiaowei Zou, Jinfeng Song,

Chinese   Journal of Polymer Science, 2006, 24,   273-279.   

 9. Synthesis   and characterization of polybinaphthalene incorporating chiral (R) or   (S)-1,1 '-binaphthalene and oxadiazole units by Heck reaction,

     Jinfeng   Song, Yixiang Cheng*, Lingwu Chen, Xiaowei Zou, Zhiliu Wang,

     European   Polymer Journal, 2006, 42,   663-669.   

 8.   Polybinaphthyls incorporating chiral (R) or (S)-2,2′-binaphthyland   oxadiazole moieties by Stille reaction,

     Yixiang   Cheng*, Lingwu Chen, Xiaowei Zou, Jinfeng Song, Zhiliu Wang,

   Polymer, 2006, 47,   435-440.   

 7.   Synthesis and properties of chiral conjugated polymer incorporating (R)-   and (S)-1,1 '-binaphthyl and oxadiazole units,

     Lingwu   Cheng, Yixiang Cheng*, Jinfeng Song, Xiaowei Zou,

   Chemical   Journal of Chinese Universities-Chinese, 2005, 26,   1743-1746.   

 6.   Silica hybrid xerogel incorporating (R)-2,2   '-bis(methoxyethoxymethyloxy)-1,1 '-binaphthyl unit via sol-gel process,

     Yixnag   Cheng*, Jinfeng Song, Lingwu Cheng, Xiaowei Zou,

   Chinese   Journal of Inorganic Chemistry, 2005, 21,   561-564.   

 5.   Synthesis and characterization of polybinaphthyls incorporating chiral (R)   or (S)-2,2 '-binaphthyl entities by heck reaction,

     Yixiang   Cheng*, Lingwu Cheng, Jinfeng Song, Xiaowei Zou, Tiandong Liu,

   Polymer   Journal, 2005, 37,   355-362.

 4. Synthesis   and properties of conjugated polymers incorporating oxadiazole units,

     Lingwu   Cheng, Tiandong Liu, Yxiang Cheng*,

     Acta   Polymerica Sinica, 2004, 4,   590-594.   

 3. Synthesis   of polybinaphthyls incorporating chiral (R)-1,1 '-bi-2,2 '-naphthol   entities with p-divinylbenzene by pd-catalyzed heck reaction,

     Yixiang   Cheng*, Lingwu Chen, Tiandong Liu,

   Chinese   Journal of Polymer Science, 2004, 22,   327-331.   

 2. Silica   hybrid containing (R)-2, 2 '-binaphtho-20-crown-6 moieties via the   sol-gel process,

     Yixiang   Cheng*, Tiandong Liu, Lingwu Cheng,

   Chinese   Journal of Chemistry, 2003, 21,   1101-1104.   

1.   Polybinaphthyls of (R)-3,3 '-Diiodo-2,2 '-binaphtho-20-crown-6 with   p-divinylbenzene via Heck Cross-coupling reaction,

     Tiandong   Liu, Yixiang Cheng*, Xiaoliang Yang,

   Chemical   Research in Chinese Universities, 2003, 19,   235-237.