Through-Space Conjugated Supramolecular Polymer Radicals from Spatial Organization of Cucurbit[8]uril: An Efficient Approach for Electron Transfer and Smart Photochromism Materials

[1]  Y. Liu,et al.  Assembly and Applications of Macrocyclic-Confinement-Derived Supramolecular Organic Luminescent Emissions from Cucurbiturils. , 2022, Chemical reviews.

[2]  Feihe Huang,et al.  Pillararene‐Induced Intramolecular Through‐Space Charge Transfer and Single‐Molecule White‐Light Emission , 2022, Angewandte Chemie.

[3]  Ryan M. Young,et al.  Electron-catalysed molecular recognition , 2022, Nature.

[4]  O. Scherman,et al.  Highly compressible glass-like supramolecular polymer networks , 2021, Nature Materials.

[5]  Peng Zheng,et al.  Supramolecular Polymerization Powered by E. coli : Fabricating an NIR Photothermal Antibacterial Agent in situ , 2021, CCS Chemistry.

[6]  Panpan Zhang,et al.  Viologen‐Immobilized 2D Polymer Film Enabling Highly Efficient Electrochromic Device for Solar‐Powered Smart Window , 2021, Advanced materials.

[7]  B. Tang,et al.  Through-Space Interactions in Clusteroluminescence , 2021, JACS Au.

[8]  Zhan-Ting Li,et al.  Self-Assembly of a Bilayer 2D Supramolecular Organic Framework in Water. , 2021, Angewandte Chemie.

[9]  Z. Tao,et al.  Host-guest interaction tailored cucurbit[6]uril-based supramolecular organic frameworks (SOFs) for drug delivery , 2021, Chinese Chemical Letters.

[10]  A. Trabolsi A radical departure for supramolecular chemistry , 2021, Nature Reviews Chemistry.

[11]  J. F. Stoddart,et al.  Radical-pairing-induced molecular assembly and motion , 2021, Nature Reviews Chemistry.

[12]  Rong-Guang Lin,et al.  Chromic Properties of Carboxyphenyl Viologen Induced by Complexation in Cucurbit[7]uril , 2021 .

[13]  Rong-Yun Li,et al.  Controlled Photoinduced Generation of "Visual" Partially and Fully Charge Separated States in Viologen Analogues. , 2021, Journal of the American Chemical Society.

[14]  Chunyan Qin,et al.  Adaptive Chirality of an Achiral Cucurbit[8]uril-Based Supramolecular Organic Framework for Chirality Induction in Water. , 2020, Angewandte Chemie.

[15]  T. Maji,et al.  Guest-Responsive Reversible Electron Transfer in a Crystalline Porous Framework Supported by Dynamic Building Node. , 2020, Angewandte Chemie.

[16]  Xi Zhang,et al.  Supramolecular Polymeric Radicals: Highly Promoted Formation and Stabilization of Naphthalenediimide Radical Anions. , 2020, Macromolecular rapid communications.

[17]  Shengke Li,et al.  Oral Colon-Targeted Konjac Glucomannan Hydrogel Constructed through Noncovalent Cross-Linking by Cucurbit[8]uril for Ulcerative Colitis Therapy. , 2019, ACS applied bio materials.

[18]  H. Tian,et al.  Aqueous Phase Visible-Light-Excited Organic Room-Temperature Phosphorescence via Cucurbit[8]uril-Mediated Supramolecular Assembling. , 2019, Angewandte Chemie.

[19]  K. W. Shah,et al.  Viologen-Based Electrochromic Materials: From Small Molecules, Polymers and Composites to Their Applications , 2019, Polymers.

[20]  L. Walder,et al.  Complementary hybrid electrodes for high contrast electrochromic devices with fast response , 2019, Nature Communications.

[21]  Xi Zhang,et al.  Supramolecular Radical Dimer: High-Efficiency NIR-II Photothermal Conversion and Therapy. , 2019, Angewandte Chemie.

[22]  Jie Zhang,et al.  Synergy of Electron-transfer and Charge-transfer in the Control of Photodynamic Behavior of Coordination Polymer. , 2019, Chemistry.

[23]  Nan Song,et al.  Stimuli-Responsive Drug-Delivery Systems Based on Supramolecular Nanovalves , 2019, Matter.

[24]  B. Tang,et al.  Through-Space Conjugation: A Thriving Alternative for Optoelectronic Materials , 2019, CCS Chemistry.

[25]  J. F. Stoddart,et al.  In Situ Photoconversion of Multicolor Luminescence and Pure White Light Emission Based on Carbon Dot-Supported Supramolecular Assembly. , 2019, Journal of the American Chemical Society.

[26]  Luo Yang,et al.  Insight into 6π Electrocyclic Reactions of 1,8-Dioxatetraene. , 2019, Angewandte Chemie.

[27]  Xiao-Dong Yang,et al.  Bipyridinium derivative-based coordination polymers: From synthesis to materials applications , 2017, Coordination Chemistry Reviews.

[28]  J. F. Stoddart,et al.  Mixed-Valence Superstructure Assembled from a Mixed-Valence Host-Guest Complex. , 2018, Journal of the American Chemical Society.

[29]  Shiyan Chen,et al.  White Light Emission from Cucurbituril-Based Host-Guest Interaction in the Solid State: New Function of the Macrocyclic Host. , 2018, ACS applied materials & interfaces.

[30]  Peng Li,et al.  Impact of Lattice Water on Solid-State Electron Transfer in Viologen Pseudopolymorphs: Modulation of Photo- and Piezochromism. , 2017, The journal of physical chemistry letters.

[31]  Ryan M. Young,et al.  Probing Distance Dependent Charge-Transfer Character in Excimers of Extended Viologen Cyclophanes Using Femtosecond Vibrational Spectroscopy. , 2017, Journal of the American Chemical Society.

[32]  Xi Zhang,et al.  Visible-Light Photoinduced Electron Transfer Promoted by Cucurbit[8]uril-Enhanced Charge Transfer Interaction: Toward Improved Activity of Photocatalysis. , 2017, ACS applied materials & interfaces.

[33]  J. F. Stoddart,et al.  Size-Matched Radical Multivalency. , 2017, Journal of the American Chemical Society.

[34]  Yang Lan,et al.  Cucurbit[n]uril-Based Microcapsules Self-Assembled within Microfluidic Droplets: A Versatile Approach for Supramolecular Architectures and Materials , 2017, Accounts of chemical research.

[35]  Soo Young Park,et al.  Highly Enhanced Fluorescence of Supramolecular Polymers Based on a Cyanostilbene Derivative and Cucurbit[8]uril in Aqueous Solution. , 2016, Angewandte Chemie.

[36]  S. Samanta,et al.  Metal-Organic Polyhedron Capped with Cucurbit[8]uril Delivers Doxorubicin to Cancer Cells. , 2016, Journal of the American Chemical Society.

[37]  Shiyan Chen,et al.  Facile Cucurbit[8]uril-Based Supramolecular Approach To Fabricate Tunable Luminescent Materials in Aqueous Solution. , 2016, Journal of the American Chemical Society.

[38]  W. Dai,et al.  Luminescent Coordination Polymer with Conjugated Lewis Acid Sites for the Detection of Organic Amines , 2015 .

[39]  Yan Yao,et al.  Heavily n-Dopable π-Conjugated Redox Polymers with Ultrafast Energy Storage Capability. , 2015, Journal of the American Chemical Society.

[40]  W. Nau,et al.  Noncovalent chirality sensing ensembles for the detection and reaction monitoring of amino acids, peptides, proteins, and aromatic drugs. , 2014, Angewandte Chemie.

[41]  Z. Tao,et al.  Self-assemblies based on the "outer-surface interactions" of cucurbit[n]urils: new opportunities for supramolecular architectures and materials. , 2014, Accounts of chemical research.

[42]  Chris Toprakcioglu,et al.  Photocontrol over cucurbit[8]uril complexes: stoichiometry and supramolecular polymers. , 2013, Journal of the American Chemical Society.

[43]  S. Liao,et al.  Photo- and thermally induced coloration of a crystalline MOF accompanying electron transfer and long-lived charge separation in a stable host-guest system. , 2012, Chemical communications.

[44]  F. Thomas,et al.  Redox control of rotary motions in ferrocene-based elemental ball bearings. , 2012, Journal of the American Chemical Society.

[45]  C. Nuckolls,et al.  Quantifying through-space charge transfer dynamics in π-coupled molecular systems , 2012, Nature Communications.

[46]  Jie Zhang,et al.  Supramolecular isomer-dependent photochromism and emission color tuning of bipyridinium salts , 2011 .

[47]  Xi Zhang,et al.  Water-soluble supramolecular polymerization driven by multiple host-stabilized charge-transfer interactions. , 2010, Angewandte Chemie.

[48]  D. Collard,et al.  Multitiered 2D pi-stacked conjugated polymers based on pseudo-geminal disubstituted [2.2]paracyclophane. , 2010, Journal of the American Chemical Society.

[49]  J. K. Hurst,et al.  Spiropyran-based photochromic polymer nanoparticles with optically switchable luminescence. , 2006, Journal of the American Chemical Society.

[50]  T. Vaid,et al.  Isolation and characterization of phenyl viologen as a radical cation and neutral molecule. , 2005, The Journal of organic chemistry.

[51]  D. T. Sawyer,et al.  Voltammetric evaluation of the effective acidities (pKa') for Brønsted acids in aprotic solvents. , 1984, Analytical chemistry.