2024 年

(81) Supramolecular light-harvesting systems utilizing tetraphenylethylene chromophores as antennas.

Qiaona Zhang; Xiaoman Dang; Fengyao Cui; Tangxin Xiao*.

Chem. Commun. 2024, DOI: 10.1039/D4CC03693J.

(80) 基于氰基苯乙烯衍生的四苯乙烯给体的超分子连续光捕获系统的构筑和应用.

张巧娜;陈邓立;肖唐鑫^*;王乐勇^*.

中国科学:化学  2024, DOI: 10.1360/SSC-2024-0170.

(79) Construction of a supramolecular light-harvesting system based on pillar[5]arene-mediated nanoparticles in water.

Xiuxiu Li; Qiaona Zhang; Xiaoman Dang; Fengyao Cui; Zheng-Yi Li; Xiao-Qiang Sun; Tangxin Xiao*.

Energy Adv. 2024, 3, 1672-1677.

(78) Supramolecular sequential light-harvesting systems for constructing white LED device and latent fingerprint imaging.

Qiaona Zhang; Fengyao Cui; Xiaoman Dang; Qi Wang; Zheng-Yi Li; Xiao-Qiang Sun; Tangxin Xiao*.

Chem.-Eur. J. 2024, 30, e202401426.

(77) Multi-step FRET systems based on discrete supramolecular assemblies.

Dengli Chen; Tangxin Xiao*; Éric Monflier*; Leyong Wang*.

Commun. Chem. 2024, 7, 88.

(76) A sequential light-harvesting system with thermosensitive colorimetric emission in both aqueous solution and hydrogel.

Lu Tang; Zhiying Wu; Qiaona Zhang; Qiulin Hu; Xiaoman Dang; Fengyao Cui; Long Tang*; Tangxin Xiao*.

Chem. Commun. 2024, 60, 4719-4722. (News)

(75) Dynamic time-dependent emission in solution and stable dual emission in solid matrix exhibited by a single-component fluorescence system.

Dengli Chen; Cheng Bao; Liangliang Zhang; Qiaona Zhang; Zhiyin Wu; Zheng-Yi Li; Xiao-Qiang Sun; Leyong Wang; Tangxin Xiao*.

Adv. Funct. Mater. 2024, 34, 2314093.  (News-1, News-2)

(74) Recent advances in two-step energy transfer light-harvesting systems driven by non-covalent self-assembly.

Zhiying Wu; Hongwei Qian;  Xiuxiu Li; Tangxin Xiao*; Leyong Wang.

Chin. Chem. Lett. 2024, 35, 108829.

(73) Artificial light-harvesting nanoparticles based on a tripodal fluorescent sensor mediated by multiple luminescence mechanisms.

Zhiying Wu; Qiaona Zhang;  Dengli Chen; Tangxin Xiao*.

Sens. Diagn. 2024, 3, 295-300. (News)

(72) Artificial stepwise light harvesting system in water constructed by quadruple hydrogen bonding supramolecular polymeric nanoparticles.

Tangxin Xiao*; Xiuxiu Li; Liangliang Zhang; Kai Diao; Zheng-Yi Li; Xiao-Qiang Sun; Leyong Wang*.

Chin. Chem. Lett. 2024, 35, 108618. (News)

2023 年

(71) 基于柱芳烃的超分子人工光捕获系统.

张巧娜; 钱宏伟; 肖唐鑫*.

中国科学:化学  2023, 53, 2546-2560.

(70) Host-guest complexes of pillar[5]arene as components for supramolecular light-harvesting systems with tunable fluorescence.

Xiuxiu Li; Zhiying Wu; Qi Wang; Zheng-Yi Li; Xiao-Qiang Sun; Tangxin Xiao*.

ChemPlusChem 2023, 88, e202300431.

(69) A fluorescent probe for Al3+ based on calix[4]arene containing salicylaldehyde-derived schiff base.

Zuquan Wang; Yunjian Li; Jing Shi; Xiaoqiang Sun; Tangxin Xiao; Ke Yang*; Zhengyi Li*.

Eur. J. Org. Chem. 2023, 26, e202300639.

(68) A temperature-responsive artificial light-harvesting system in water with tunable white-light emission.

Tangxin Xiao*; Dongxing Ren; Lu Tang; Zhiying Wu; Qi Wang; Zheng-Yi Li; Xiao-Qiang Sun.

J. Mater. Chem. A 2023, 11, 18419-18425. 

(67) An amphiphilic molecule with a single fluorophore exhibits multiple stimuli-responsive behavior.

Dongxing Ren; Lu Tang; Zhiying Wu; Qiaona Zhang; Tangxin Xiao*; Robert Elmes; Leyong Wang.

Chin. Chem. Lett. 2023, 34, 108617. (News)

(66) Pillar[5]arene-based artificial light-harvesting system with red emission for high-resolution imaging of latent fingerprints.

Tangxin Xiao*; Liangliang Zhang;  Dengli Chen; Qiaona Zhang; Qi Wang; Zheng-Yi Li; Xiao-Qiang Sun.

Org. Chem. Front. 2023, 10, 3245-3251. (News)

(65) Highly efficient sequential light-harvesting system constructed by macrocycle-based nanoparticles for tunable photoluminescence.

Tangxin Xiao*; Hongwei Qian;  Xiuxiu Li; Zhiying Wu; Zheng-Yi Li; Xiao-Qiang Sun.

Dyes and Pigments 2023, 215, 111289.

(64) Chemical fuel-driven gelation with dissipative assembly-induced emission.

Ming Cheng; Dengli Chen; Liangliang Zhang; Tangxin Xiao*; Juli Jiang*; Leyong Wang*.

Org. Chem. Front. 2023, 10, 1380-1385. (News)

(63) Editorial: host-guest chemistry of macrocycles-volume II.

Tangxin Xiao*; Robert Elmes*; Yong Yao*.

Front. Chem. 2023, 11, 1162019.

(62) Anion-complexation-induced emission based on aggregation-induced emission fluorophore.

Dongxing Ren; Liangliang Zhang; Hongwei Qian; Tangxin Xiao*

Chemistry (Switzerland) 2023, 5, 242-254. (invited review paper)

(61) Construction of molecular nanotubes with precise length, diameter and chirality.

Qiaona Zhang; Hongwei Qian; Tangxin Xiao*; Robert Elmes*; Leyong Wang*.

Chin. Chem. Lett. 2023, 34, 108365.

(60) Fluorescent nanoassemblies in water exhibiting tunable LCST behavior and responsive light harvesting ability.

Tangxin Xiao*; Lu Tang; Dongxing Ren; Kai Diao; Zheng-Yi Li; Xiao-Qiang Sun.

Chem. Eur. J. 2023, 29, e202203463. (News)

(59) Pillar[5]arene-based light-harvesting assemblies with sequential energy-transfer for tunable emission and photocatalysis.

Tangxin Xiao*; Dengli Chen; Hongwei Qian; Yong Shen; Liangliang Zhang; Zheng-Yi Li; Xiao-Qiang Sun.

Dyes and Pigments 2023, 210, 110958.

(58) Construction of a sequential light-harvesting system via supramolecular copolymerization.

Hongwei Qian; Tangxin Xiao*; Robert Elmes*; Leyong Wang.

Chin. Chem. Lett. 2023, 34, 108185.

(57) Highly deformable and durable hydrogels through synergy of covalent crosslinks and nanosheet-reinforced dynamic interactions toward flexible sensor.

Fanglin Chen; Zehuan Huang; Tao Li; Tangxin Xiao; Shufen Wang; Guoheng Bai; Hong Sun; Sane Zhu; Wei Yang; Hongdian Lu*; and Chunxiang Wei*.

Adv. Mater. Technol. 2023, 8, 2200745.

2022 年

(56) Non-covalent dimer as donor chromophore for constructing artificial light-harvesting system in water.

Liangliang Zhang; Hongwei Qian; Zhiying Wu; Qiaona Zhang; Shengke Li*, Ming Cheng*, Tangxin Xiao*.

Molecules 2022, 27, 8876.

(55) Editorial: suprastars of chemistry.

Tangxin Xiao*; Tony D. James*; Victor Borovkov*; Ronald K. Castellano*; Chao Deng*.

Front. Chem. 2022, 10, 932508.

(54) Self-assembled fluorescent nanoparticles with tunable LCST behavior in water.

Tangxin Xiao*; Dongxing Ren; Kai Diao; Jie Wang; Zheng-Yi Li; Xiao-Qiang Sun; Leyong Wang*.

Chem. Asian J. 2022, 17, e202200386. (News)

(53) Artificial light-harvesting system based on the ESIPT-AIE-FRET triple fluorescence mechanism.

Tangxin Xiao*; Cheng Bao; Liangliang Zhang; Kai Diao; Dongxing Ren;  Chunxiang Wei*; Zheng-Yi Li; Xiao-Qiang Sun.

J. Mater. Chem. A 2022, 10, 8528-8534. 

selected as "2022 JMCA Most Popular Articles TOP 50"

(52) A tunable artificial light-harvesting system based on host-guest interaction exhibiting ultrahigh antenna effect and narrowed emission band.

Tangxin Xiao*; Hongwei Qian; Yong Shen; Chunxiang Wei; Dongxing Ren;  Liangliang Zhang; Zheng-Yi Li; Leyong Wang; Xiao-Qiang Sun*.

Mater. Today Chem. 2022, 24, 100833. (News)

(51) Ultralow-acceptor-content supramolecular light-harvesting system for white-light emission.

Kai Diao; Daniel J. Whitaker; Zehuan Huang; Hongwei Qian; Dongxing Ren; Liangliang Zhang; Zheng-Yi Li; Xiao-Qiang Sun; Tangxin Xiao*; Leyong Wang.

Chem. Commun. 2022, 58, 2343-2346.

2021 年

(50) Supramolecular polymer-directed light-harvesting system based on a stepwise energy transfer cascade.

Tangxin Xiao*; Liangliang Zhang; Haoran Wu; Hongwei Qian; Dongxing Ren;Zheng-Yi Li; Xiao-Qiang Sun.

Chem. Commun. 2021, 57, 5782-5785.

(49) Efficient artificial light-harvesting system constructed from supramolecular polymers with AIE property.

Tangxin Xiao*; Yong Shen; Cheng Bao; Kai Diao; Dongxing Ren; Hongwei Qian; Liangliang Zhang.

RSC Adv. 2021, 11, 30041-30045. (invited paper)

(48) Acetal-based spirocyclic skeleton bridged tetraphenylethylene dimer for light-harvesting in water with ultrahigh antenna effect.

Tangxin Xiao*; Xiaoyan Wei; Haoran Wu; Kai Diao; Zheng-Yi Li; Xiao-Qiang Sun*.

Dyes and Pigments 2021, 188, 109161.

(47) Preparation of a fixed-tetraphenylethylene motif bridged ditopic benzo-21-crown-7 and its application for constructing AIE supramolecular polymers. 

Tangxin Xiao*; Jie Wang; Yong Shen; Cheng Bao; Zheng-Yi Li; Xiao-Qiang Sun; Leyong Wang.

Chin. Chem. Lett. 2021, 32, 1377-1380. 

(46)脲基嘧啶酮衍生的苯并21冠7的合成及其主客体行为.

肖唐鑫*; 周玲; 魏小艳; 李正义; 孙小强.

常州大学学报 2021,33, 29-34. 

2020年

(45) Reversible hydrogen-bonded polymerization regulated by allosteric metal templation.

Tangxin Xiao*; Weiwei Zhong; Weiwei Yang; Lijie Qi; Yan Gao; Andrew C.-H. Sue; Zheng-Yi Li; Xiao-Qiang Sun; Chen Lin; Leyong Wang.

Chem. Commun. 2020, 56, 14385-14388.

(44) An efficient artificial light-harvesting system with tunable emission in water constructed from H-bonded AIE supramolecular polymer and Nile Red. 

Tangxin Xiao*; Haoran Wu; Guangping Sun; Kai Diao; Xiaoyan Wei; Zheng-Yi Li; Xiao-Qiang Sun; Leyong Wang.

Chem. Commun. 2020, 56, 12021-12024. 

(43) Supramolecular polymers with AIE property fabricated from a cyanostilbene motif derived ditopic benzo-21-crown-7 and a ditopic dialkylammonium salt. 

Haoran Wu; Tangxin Xiao*.

Front. Chem. 2020,8,610093.

(42) Editorial: host-guest chemistry of macrocycles. 

Tangxin Xiao^*; Robert Elmes^*; Yong Yao^*.

Front. Chem. 2020,8, 628200.

(41)  Supramolecular self-assembly of dioxyphenylene bridged ureidopyrimidinone derivatives. 

Lijie Qi, Yihan Ding, Tangxin Xiao*; Haoran Wu; Kai Diao; Cheng Bao; Yong Shen; Zhengyi Li; Xiaoqiang Sun; Leyong Wang*.

Chin. J. Org. Chem. 2020, 40, 3847-3852. 

(40) Supramolecular polymers constructed from two different rigid monomers by orthogonal self-assembly. 

Tangxin Xiao*; Lin Zhou; Xiaoyan Wei; Zhengyi Li; Xiaoqiang Sun*.

Chin. J. Org. Chem. 2020, 40, 944-949. 

(39) Supramolecular polymers fabricated by orthogonal self-assembly based on multiple hydrogen bonding and macrocyclic host–guest interactions. 

Tangxin Xiao*; Ling Zhou; Xiao-Qiang Sun; Feihe Huang*; Chen Lin; Leyong Wang*.

Chin. Chem. Lett. 2020,31, 1-9. 

(38)Systems based on calixarenes for the creation of catalysts.

Zheng-Yi Li; Tangxin Xiao; Ke Yang; Yuan Chen, Leyong Wang*. 

Book Chapter in:Supramolecular Catalysts.(Editors: L. Wang and C. Su), Monographs in “Chemistry, Energy, and Environment” Series (Editors: K. Kadish and R. Guilard). World Scientific Publishing.2020, p 117-148.

(37)Writable and self-erasable hydrogel based on dissipative assembly process from multiple carboxyl tetraphenylethylene derivative. 

Ming Cheng; Cheng Qian; Yihan Ding; Yuan Chen; Tangxin Xiao; Xiancai Lu; Juli Jiang^*; Leyong Wang^*.

ACS Materials Lett. 2020,2, 425-429.

2019年

(36) β-D-Galactose-functionalized pillar[5]arene with interesting planar-chirality for constructing chiral nanoparticles.

Guangping Sun; Liangtao Pu; Srikala Pangannaya; Tangxin Xiao; Xiao-Yu Hu*; Juli Jiang*; Leyong Wang.

Front. Chem.2019,7, 743. 

(35) Synthesis and crystal structure of trifluoromethyl-containing bendamustine hydrochloride. 

Yue Yin; Huailiang Liu; Tangxin Xiao; Xiaoqiang Sun; Ke Yang*; Zhengyi Li*.

J. Chem. Res.2019,43, 386-391.

(34) Supramolecular polymerization and cyclization of dioxynaphthalene motif bridged bifunctional UPys: minor variations in molecular skeleton and drastic differences in self-assembly.

Tangxin Xiao*; Lixiang Xu; Julian Götz; Ming Cheng; Frank Würthner*; Jiande Gu; Xuejun Feng*; Zheng-Yi Li; Xiao-Qiang Sun; Leyong Wang.

Mater. Chem.Front.2019,3, 2738-2745. 

(33) Ring-opening supramolecular polymerization controlled by orthogonal non-covalent interactions. 

Tangxin Xiao*; Weiwei Zhong; Lijie Qi; Jiande Gu; Xuejun Feng*; Yue Yin; Zheng-Yi Li; Xiao-Qiang Sun; Ming Cheng*; Leyong Wang.

Polym. Chem.2019,10, 3342-3350.

(32) Stimuli-responsive nanocarriers constructed from pillar[n]arene-based supra-amphiphiles. 

Tangxin Xiao*; Lijie Qi; Weiwei Zhong; Ruibing Wang*; Chen Lin*; Leyong Wang.

Mater. Chem.Front.2019,3, 1973-1993. (News)

(31) Biomimetic folding of small organic molecules driven by multiple non-covalent interactions. 

Tangxin Xiao*; Lixiang Xu; Jie Wang; Zheng-Yi Li; Xiao-Qiang Sun*; Leyong Wang*.

Org. Chem.Front.2019,6, 936-941. 

(30) Supramolecular vesicles based on pillar[n]arenes: design, construction, and applications. 

Tangxin Xiao*; Weiwei Zhong; Lixiang Xu; Xiao-Qiang Sun; Xiao-Yu Hu*; Leyong Wang*.

Org. Biomol. Chem.2019,17, 1336-1350. 

(29) Dynamic hydrogels mediated by macrocyclic host–guest interactions. 

Tangxin Xiao*; Lixiang Xu; Ling Zhou; Xiao-Qiang Sun; Chen Lin*; Leyong Wang*.

J. Mater. Chem. B2019,7, 1526-1540.

(28) Dynamic materials fabricated from water soluble pillar[n]arenes bearing triethylene oxide groups. 

Tangxin Xiao*; Ling Zhou; Lixiang Xu; Weiwei Zhong; Wei Zhao; Xiao-Qiang Sun; Robert B.P. Elmes*.

Chin. Chem. Lett.2019,30, 271-276. 

(27)Supramolecular functional complexes constructed by orthogonal self-assembly.

Tangxin Xiao; Xiao-Qiang Sun*; Leyong Wang^*.

Book Chapter in:Handbook of Macrocyclic Supramolecular Assembly,Y. Liu, Y. Chen, H.-Y. Zhang Eds.; Springer, Singapore,2019, p 1-28.

(26) Artificial light-harvesting systems fabricated by supramolecular host–guest interactions. 

Tangxin Xiao*; Weiwei Zhong; Ling Zhou; Lixiang Xu; Xiao-Qiang Sun; Robert B.P. Elmes*; Xiao-Yu Hu; Leyong Wang.

Chin. Chem. Lett.2019,30, 31-36. 

2018年

(25) Advanced functional materials constructed from pillar[n]arenes. 

Tangxin Xiao*; Lixiang Xu; Weiwei Zhong; Ling Zhou; Xiao-Qiang Sun; Xiao-Yu Hu; Leyong Wang*.

Isr. J. Chem.2018,58, 1183-1193. 

(24) Recent advances of functional gels controlled by pillar[n]arene-based host-guest interactions.

Tangxin Xiao*; Leyong Wang*.

Tetrahedron Lett.2018,59, 1172-1182. 

(23) Warm/cool-tone switchable thermochromic material for smart windows by orthogonally integrating properties of pillar[6]arene and ferrocene.

Sai Wang; Zuqiang Xu; Tingting Wang; Tangxin Xiao; Xiao-Yu Hu*; Ying-Zhong Shen*; Leyong Wang*.

Nat. Commun.2018,9, 1737-1745. 

(22) Asymmetric Michael addition reactions catalyzed by calix[4]thiourea cyclohexanediamine derivatives.

Zheng-Yi Li; Hong-Xiao Tong; Yuan Chen; Hong-Kui Su; Tangxin Xiao*; Xiao-Qiang Sun; Leyong Wang*.

Beilstein J. Org. Chem.2018,14, 1901-1907. 

(21) Oxo-spirocyclic structure bridged ditopic Schiff base: A turn-on fluorescent probe for selective recognition of Zn(II) and its application in biosensing.

Zheng-Yi Li; Hong-Kui Su; Kun Zhou; Bao-Zhu Yang; Tangxin Xiao*; Xiao-Qiang Sun*; Juli Jiang; Leyong Wang.

Dyes and Pigments2018,149, 921-926.

(20) Calix[4]arene containing thiourea and coumarin functionality as highly selective fluorescent and colorimetric chemosensor for fluoride ion.

Zheng-Yi Li; Hong-Kui Su; Hong-Xiao Tong; Yue Yin; Tangxin Xiao*; Xiao-Qiang Sun*; Juli Jiang; Leyong Wang.

Spectrochim. Acta A2018,200, 307-312.

2017年

(19) Acid/base-controllable fluorescent molecular switches based on cryptands and basic N-heteroaromatics.

Ming Cheng; Jing Zhang; Xintong Ren; Shuwen Guo; Tangxin Xiao; Xiao-Yu Hu; Juli Jiang*; Leyong Wang*.

Chem. Commun.2017,53, 11838-11841.

2016年及以前：

(18) Cobalt-catalyzed direct amination of arenes with alkylamines via bidentate-chelation assistance.

 Qiangqiang Yan; Tangxin Xiao; Zhanxiang Liu; Yuhong Zhang*.

Adv. Synth. Catal. 2016,358, 2707-2711. 

(17)Hydrogen-Bonded Supramolecular Polymers. 

Chen Lin; Tangxin Xiao; Leyong Wang*. 

Book Chapter in:Hydrogen bonded supramolecular structures, Z.-T. Li, L.-Z. Wu, Eds.; Springer Berlin Heidelberg: Berlin, Heidelberg,2015, p 321-350.

(16) Dynamic supramolecular complexes constructed by orthogonal self-assembly.

Xiao-Yu Hu;Tangxin Xiao; Chen Lin; Feihe Huang; Leyong Wang*.

Acc. Chem. Res.2014,47, 2041-2051.

(15) pH-Responsive supramolecular vesicles based on water-soluble pillar[6]arene and ferrocene derivative for drug delivery.

Qunpeng Duan; Yu Cao; Yan Li; Xiaoyu Hu; Tangxin Xiao; Chen Lin; Yi Pan; Leyong Wang*. 

J. Am. Chem. Soc.2013,135, 10542-10549. 

(14) Novel macrocycles bearing dithienylethene units and urea functional groups: synthesis, structure and photochromic property.

Tangxin Xiao; Shao-Lu Li; Xiaoning Zhang; Chen Lin*; Leyong Wang*.

Chin. J. Chem.2013,31, 627-634. 

(13) Switchable supramolecular polymers from the orthogonal self-assembly of quadruple hydrogen bonding and benzo-21-crown-7/secondary ammonium salt recognition.

Tangxin Xiao; Xiaoqing Feng; Qi Wang; Chen Lin*; Leyong Wang*.

Chem. Commun.2013,49, 8329-8331.

(12) Highly Controllable Ring–Chain Equilibrium in Quadruply Hydrogen Bonded Supramolecular Polymers.

Tangxin Xiao; Xiaoqing Feng; Shuyang Ye; Yangfan Guan; Shao-Lu Li; Qi Wang; Ya Ji; Dunru Zhu; Xiaoyu Hu; Chen Lin; Yi Pan; Leyong Wang*.

Macromolecules2012,45, 9585-9594.

(11) Novel self-assembled dynamic [2]catenanes interlocked by quadruple hydrogen bonding ureidopyrimidinone motif.

Tangxin Xiao; Shao-Lu Li; Yajie Zhang; Chen Lin; Bingjie Hu; Xinchao Guan; Yihua Yu; Juli Jiang; Leyong Wang*.

Chem. Sci.,2012,3, 1417-1421. 

(10) Pillar[5]arene-based polymeric architectures constructed by orthogonal supramolecular interactions.

Yangfan Guan; Mengfei Ni; Xiaoyu Hu; Tangxin Xiao; Shuhan Xiong; Chen Lin; Leyong Wang*.

Chem. Commun.2012,48, 8529-8531. 

(9) Novel Pillar[5]arene-Based Dynamic Polyrotaxanes Interlocked by the Quadruple Hydrogen Bonding Ureidopyrimidinone Motif.

Xiao-Yu Hu; Xuan Wu; Qunpeng Duan; Tangxin Xiao; Chen Lin; Leyong Wang*.

Org. Lett.2012,14, 4826-4829.

(8) Pillar[5]arene-based supramolecular polypseudorotaxanes constructed from quadruple hydrogen bonding.

Xiao-Yu Hu; Pingyuan Zhang; Xuan Wu; Wei Xia; Tangxin Xiao; Juli Jiang; Chen Lin; Leyong Wang*.

Polym. Chem.2012,3, 3060-3063.

(7) Advanced supramolecular polymers constructed by orthogonal self-assembly.

Shao-Lu Li; Tangxin Xiao; Chen Lin; Leyong Wang*.

Chem. Soc. Rev.2012,41, 5950-5968. 

(6) Formation of polypseudorotaxane networks by cross-linking the quadruple hydrogen bonded linear supramolecular polymers via bisparaquat molecules.

Shao-Lu Li; Tangxin Xiao; Bingjie Hu; Yajie Zhang; Feng Zhao; Ya Ji; Yihua Yu; Chen Lin; Leyong Wang*. 

Chem. Commun.2011,47, 10755-10757. 

(5) New light into ring-chain equilibrium investigation of hydrogen-bonded supramolecular polymer based on a photochromic dithienylethene unit and its energy-transfer properties as storage materials.

Shao-Lu Li; Tangxin Xiao; Wei Xia; Xia Ding; Yihua Yu; Juli Jiang; Leyong Wang*.

Chem. -Eur. J.2011,17, 10716-10723.

(4) New linear supramolecular polymers that is driven by the combination of quadruple hydrogen bonding and crown ether–paraquat recognition.

Shao-Lu Li; Tangxin Xiao; Yufei Wu; Juli Jiang; Leyong Wang*.

Chem. Commun.2011,47, 6903-6905.

(3) Palladium-catalyzed cross-coupling reations: a brief introduction to the Nobel Prize in chemistry 2010.

Tangxin Xiao; Li Liu; Juli Jiang; Leyong Wang*.

Chin. J. Nat.2010,32, 332-337.

(2) Field-amplified sample injection for the determination of albumin and transferrin in human urines by MEKC.

Yi-Wei Wu*; Jun-Feng Liu; Tang-Xin Xiao; De-Yan Han; Hai-Li Zhang; Ji-Cheng Pan.

Electrophoresis,2009,30, 668-673.

(1) Determination of triptonide by cloud point extraction combined with MEKC.

Yi-Wei Wu*; Yin-Yan Jiang; Tang-Xin Xiao; Hai-Li Zhang.

J. Sep. Sci.2008,31, 865-871.

授权专利：

(20)肖唐鑫，任东兴，吴可慧，李正义，孙小强. 一种基于 AIE 基团的温度响应荧光纳米材料及其制备方法，CN 114685309 B (授权公告日：2024.7.16)

(19)肖唐鑫，李秀秀，吴可慧，李正义，孙小强. 一种基于氰基苯乙烯超分子聚合物的连续光捕获系统，CN 115926186 B (授权公告日：2024.4.9)

(18)肖唐鑫，钱宏伟，吴可慧，李正义，孙小强. 一种基于柱芳烃的光捕获体系及其制备方法和应用，CN 114479838 B (授权公告日：2023.10.31)

(17)申永，肖唐鑫，吴可慧，李正义，孙小强. 一种基于脲基嘧啶酮的水杨醛席夫碱衍生物及超分子聚合物，CN 113234025 B (授权公告日：2023.5.9)

(16)肖唐鑫，鲍成，吴可慧. 一种具有AIE效应的有机小分子的制备及应用，CN 111303015 B (授权公告日：2023.1.31)

(15)肖唐鑫，任东兴，吴可慧，李正义，孙小强. 一种可擦除荧光墨水及其制备方法，CN 113637358 B (授权公告日：2023.1.31)

(14)肖唐鑫，刁凯，吴可慧，李正义，孙小强. 一种基于氰基苯乙烯的能量转移体系的制备方法及应用，CN 113444518 B (授权公告日：2023.1.31)

(13)肖唐鑫，张亮亮，吴可慧，李正义，孙小强. 一种连续两步能量转移的光捕获系统及其制备方法和应用，CN 113136199 B (授权公告日：2023.1.31)

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