Highly Efficient Far Red/Near-Infrared Solid Fluorophores: Aggregation-Induced Emission, Intramolecular Charge Transfer, Twisted Molecular Conformation, and Bioimaging Applications.
暂无分享,去创建一个
Hui Gao | Bin Xu | W. Tian | Xiongqi Han | Hongguang Lu | Yadan Zheng | Xiaowei Zhao | Lijuan Wang | Suqian Ma | Wenjing Tian
[1] Di Jin,et al. A near-infrared multifunctional fluorescent probe with an inherent tumor-targeting property for bioimaging. , 2015, Chemical communications.
[2] He Tian,et al. Far-Red and Near-IR AIE-Active Fluorescent Organic Nanoprobes with Enhanced Tumor-Targeting Efficacy: Shape-Specific Effects. , 2015, Angewandte Chemie.
[3] Ming Zhang,et al. Organic Light-Emitting Diodes Using a Neutral π Radical as Emitter: The Emission from a Doublet. , 2015, Angewandte Chemie.
[4] Soo Young Park,et al. A distyrylbenzene based highly efficient deep red/near-infrared emitting organic solid , 2015 .
[5] Kai Li,et al. Polymer-encapsulated organic nanoparticles for fluorescence and photoacoustic imaging. , 2014, Chemical Society reviews.
[6] B. Tang,et al. AIE macromolecules: syntheses, structures and functionalities. , 2014, Chemical Society reviews.
[7] Yuguang Ma,et al. Employing ∼100% Excitons in OLEDs by Utilizing a Fluorescent Molecule with Hybridized Local and Charge‐Transfer Excited State , 2014 .
[8] Yuguang Ma,et al. Highly efficient near-infrared organic light-emitting diode based on a butterfly-shaped donor-acceptor chromophore with strong solid-state fluorescence and a large proportion of radiative excitons. , 2014, Angewandte Chemie.
[9] Kai Li,et al. Bright and Photostable Organic Fluorescent Dots with Aggregation‐Induced Emission Characteristics for Noninvasive Long‐Term Cell Imaging , 2014 .
[10] Li-juan Wang,et al. An Organic Luminescent Molecule: What Will Happen When the “Butterflies” Come Together? , 2014, Advanced materials.
[11] Juyoung Yoon,et al. Recent progress in the development of near-infrared fluorescent probes for bioimaging applications. , 2014, Chemical Society reviews.
[12] Yen Wei,et al. Fabrication of aggregation induced emission dye-based fluorescent organic nanoparticles via emulsion polymerization and their cell imaging applications , 2014 .
[13] R. Ohta,et al. Near Infrared Fluorescence Enhancement by Local Surface Plasmon Resonance from Arrayed Gold Nanoblocks , 2013 .
[14] Kai Li,et al. Photostable fluorescent organic dots with aggregation-induced emission (AIE dots) for noninvasive long-term cell tracing , 2013, Scientific Reports.
[15] Lijuan Wang,et al. Piezochromic luminescence based on the molecular aggregation of 9,10-bis((E)-2-(pyrid-2-yl)vinyl)anthracene. , 2012, Angewandte Chemie.
[16] D. Meldrum,et al. Using fluorine-containing amphiphilic random copolymers to manipulate the quantum yields of aggregation-induced emission fluorophores in aqueous solutions and the use of these polymers for fluorescent bioimaging. , 2012, Journal of materials chemistry.
[17] T. Hiyama,et al. 1,4-Bis(diarylamino)-2,5-bis(4-cyanophenylethenyl)benzenes: fluorophores exhibiting efficient red and near-infrared emissions in solid state. , 2012, Angewandte Chemie.
[18] Ben Zhong Tang,et al. Biocompatible Nanoparticles with Aggregation‐Induced Emission Characteristics as Far‐Red/Near‐Infrared Fluorescent Bioprobes for In Vitro and In Vivo Imaging Applications , 2012 .
[19] B. Liu,et al. Fluorescent Conjugated Polyelectrolytes for Bioimaging , 2011 .
[20] Sailing He,et al. Aggregation-enhanced fluorescence in PEGylated phospholipid nanomicelles for in vivo imaging. , 2011, Biomaterials.
[21] C. Andraud,et al. Near-Infrared Solid-State Emitters Based on Isophorone: Synthesis, Crystal Structure and Spectroscopic Properties.† , 2011 .
[22] Soojin Lim,et al. NIR dyes for bioimaging applications. , 2010, Current opinion in chemical biology.
[23] Gang Qian,et al. Simple and Efficient Near‐Infrared Organic Chromophores for Light‐Emitting Diodes with Single Electroluminescent Emission above 1000 nm , 2009 .
[24] S. W. Thomas,et al. Chemical sensors based on amplifying fluorescent conjugated polymers. , 2007, Chemical reviews.
[25] Hoi Sing Kwok,et al. Aggregation-induced emission , 2006, SPIE Optics + Photonics.
[26] W. Nau,et al. Fluorescence Regeneration as a Signaling Principle for Choline and Carnitine Binding: A Refined Supramolecular Sensor System Based on a Fluorescent Azoalkane , 2006 .
[27] D. Reintgen,et al. Current status of sentinel lymph node mapping and biopsy: facts and controversies. , 2003, The oncologist.
[28] Guilford Jones,et al. Solvent effects on emission yield and lifetime for coumarin laser dyes. Requirements for a rotatory decay mechanism , 1983 .
[29] H. Dodiuk,et al. Intramolecular donor-acceptor system. 4. Solvent effects on radiative and nonradiative processes for the charge-transfer states of N-arylaminonaphthalenesulfonates , 1978 .