设为首页| 收藏本站| 联系我们
今天是2020年12月03日 星期四
  • [1468] Feng, G.; Wu, W.; Xu, S.; Liu, B., Far Red/Near-Infrared AIE Dots for Image-GuidedPhotodynamic Cancer Cell Ablation. ACS Applied Materials & Interfaces,2016,8, 21193-21200. PDF

    [1467] Vij, V.; Bhalla, V.; Kumar, M., Hexaarylbenzene: Evolution of Properties and Applications of Multitalented Scaffold. Chemical Reviews, 2016, 116, 9565-9627. PDF

    [1466] Abd-El-Aziz, A. S.; Abdelghani, A. A.; Wagner, B. D.; Pearson, J. K.; Awad, M. K., Design of blue fluorescence emitter star-shaped macromolecules based on pyrene and anthracene. Polymer, 2016, 98, 210-228. PDF

    [1465]  Wang, W.; Zhu, L.; Hirano, Y.; Kariminavargani, M.; Tada, S.; Zhang, G.; Ito, Y., Fluorogenic Enhancement of an in Vitro-Selected Peptide Ligand by Replacement of a Fluorescent Group. Analytical Chemistry, 2016, 88, 7991-7997. PDF

    [1464] Deng, H.; Han, T.; Zhao, E.; Kwok, R. T.; Lam, J. W.; Tang, B. Z., Multicomponent Click Polymerization: A Facile Strategy toward Fused Heterocyclic Polymers. Macromolecules, 2016, 49, 5475-5483. PDF

    [1463] Xu, S.; Bai, X.; Ma, J.; Xu, M.; Hu, G.; James, T. D.; Wang, L., Ultrasmall Organic Nanoparticles with Aggregation-Induced Emission and Enhanced Quantum Yield for Fluorescence Cell Imaging. Analytical Chemistry, 2016, 88, 7853-7857. PDF

    [1462] Hang, C.; Wu, H. W.; Zhu, L. L., π-Conjugated cyanostilbene-based optoelectric functional materials. Chinese Chemical Letters, 2016, 27, 1155-1165. PDF

    [1461]  Shen, P. C.; Zhuang, Z. Y., Zhao, Z. J.; Tang, B. Z., Recent advances of folded tetraphenylethene derivatives featuring through-space conjugation. Chinese Chemical Letters, 2016, 27, 1115-1123. PDF

    [1460] Tanwar, A. S.; Hussain, S.; Malik, A. H.; Afroz, M. A.; Iyer, P. K., Inner Filter Effect Based Selective Detection of Nitroexplosive-Picric Acid in Aqueous Solution and Solid Support Using Conjugated Polymer. ACS Sensors, 2016, 1, 1070-1077. PDF

    [1459]  Klikar, M.; Solanke, P.; Tydlitát, J.; Bureš, F., Alphabet‐Inspired Design of (Hetero) Aromatic Push–Pull Chromophores. The Chemical Record, 2016, 16, 1886-1905. PDF

    [1458] Yan, L. Q.; Kong, Z. N.; Xia, Y.; Qi, Z. J., A novel coumarin-based red fluorogen with AIE, self-assembly, and TADF properties. New Journal of Chemistry, 2016, 40, 7061-7067. PDF

    [1457] Wu, J.; Song, X.; Zeng, L.; Xing, J., Synthesis and assembly of polyhedral oligomeric silsesquioxane end-capped amphiphilic polymer to enhance the fluorescent intensity of tetraphenylethene. Colloid and Polymer Science, 2016, 294, 1315-1324. PDF

    [1456] Dong, J.; Liu, W.; Ying, S.; Wu, Y.; Xue, S.; Yang, W., 9-Arylvinyl-and 9, 10-bis (arylvinyl)-anthracenes with phenyl and naphthyl as aryl moieties: Differential aggregation behaviors and optoelectronic properties. Journal of Luminescence, 2016, 176, 168-174. PDF

    [1455] Tripathi, N.; Sandhu, S.; Singh, P.; Mahajan, A.; Kaur, M.; Kumar, S., Dansyl conjugated tripodal AIEEgen for highly selective detection of 2, 4, 6-trinitrophenol in water and solid state. Sensors and Actuators B: Chemical, 2016, 231, 79-87. PDF

    [1454] Li, Y. X.; Yang, X. F.; Miao, J. L.; Sun, G. X., Substitution Position and Vinylene Bond Geometry Modulating the Fluorescence Solvatochromism and Aggregation-Induced Emission of (9-Anthryl) vinyl (1-pyrenyl) vinylbenzene Isomers. The Journal of Physical Chemistry C, 2016,  120, 21722-21729. PDF

    [1453] Zhang, F. B.; Adachi, Y.; Ooyama, Y.; Ohshita, J., Synthesis and Properties of Benzofuran-Fused Silole and Germole Derivatives: Reversible Dimerization and Crystal Structures of Monomers and Dimers.Organometallics, 2016, 35, 2327-2332. PDF

    [1452] Duraimurugan, K.; Sivamani, J.; Sathiyaraj, M.; Thiagarajan, V.; Siva, A., Piezoflurochromism and Aggregation Induced Emission Properties of 9, 10-bis (trisalkoxystyryl) Anthracene Derivatives. Journal of fluorescence, 2016, 26 , 1211-1218. PDF

    [1451] Chen, S.; Wang, H.; Hong, Y.; Tang, B. Z., Fabrication of fluorescent nanoparticles based on AIE luminogens (AIE dots) and their applications in bioimaging. Materials Horizons, 2016,3,283-293. PDF

    [1450] Ma, H.; He, C.; Li, X.; Ablikim, O.; Zhang, S.; Zhang, M., A fluorescent probe for TNP detection in aqueous solution based on joint properties of intramolecular charge transfer and aggregation-induced enhanced emission. Sensors and Actuators B: Chemical, 2016,230, 746-752. PDF

    [1449] Zheng, X.; Peng, Q.; Zhu, L.; Xie, Y.; Huang, X.; Shuai, Z., Unraveling the aggregation effect on amorphous phase AIE luminogens: a computational study. Nanoscale, 2016, 8, 15173-15180. PDF

    [1448] Xu, B.; Li, W.; He, J.; Wu, S.; Zhu, Q.; Yang, Z.; Wu Y.C.; Zhang Y.; Jin C.; Lu P. Y.;Chi, Z.; Liu S.; Xu J.; Bryce M. R.,Achieving very bright mechanoluminescence from purely organic luminophores with aggregation-induced emission by crystal design. Chemical Science,2016, 7, 5307-5312. PDF

    [1447] Han, F.; Zhang, R.; Zhang, Z.; Su, J.; Ni, Z.,A new TICT and AIE-active tetraphenylethene-based Schiff base with reversible piezofluorochromism. RSC Advances, 2016, 6,68178-68184. PDF

    [1446] Yan, L.; Zhang, Y.; Ji, G.; Ma, L.; Chen, J.; Xu, B.; Tian, W.,Multifunctional polymer nanoparticles: ultra bright near-infrared fluorescence and strong magnetization and their biological applications. RSC Advances, 2016, 6, 65426-65433. PDF

    [1445] Zhang, X.; Gan, X.; Yao, S.; Zhu, W.; Yu, J.; Wu, Z.; Zhou H.; Tian Y.; Wu, J., Branched triphenylamine-core compounds: aggregation induced two-photon absorption. RSC Advances, 2016, 6, 60022-60028. PDF

    [1444] Das, M.; Baig, F.; Sarkar, M.,Photo Physical Properties of Di-Schiff Bases: Evaluating the Synergistic Effect of Non Covalent Interactions and Alkyl Spacer in Enhanced Emissions of Solids. RSC Advances, 2016, 6, 57780-57792. PDF

    [1443] Xu, D.; Huang, H.; Deng, F.; Wei, Y.,Fabrication of Amphiphilic Fluorescent Nanoparticles with AIE Feature via One-pot Clickable Mercaptoacetic Acid Locking Imine Reaction: Synthesis, Self Assembly and Bioimaging. Polymer Chemistry, 2016, 7, 4559-4566. PDF

    [1442] Malakar, A.; Biswal, H. T.; Reddy, K. A.; Kumar, M.; Mandal, B. B.;Krishnamoorthy, G.,Aggregation Induced Enhanced Emission of 2-(2′-Hydroxyphenyl) benzimidazole: A Combined Experimental and Simulation Approach. Photochemical & Photobiological Sciences, 2016, 15, 937-948. PDF

    [1441] Srujana, P.; Gera, T.; Radhakrishnan, T. P.,Fluorescence enhancement in crystals tuned by a molecular torsion angle: a model to analyze structural impact. Journal of Materials Chemistry C, 2016, 4, 6510-6515. PDF

    [1440] Liu, Y.; Lei, Y.; Liu, M.; Li, F.; Xiao, H.; Chen, J.; Huang X.; Gao W.; Wu H.; Cheng, Y.,The effect of N-alkyl chain length on the photophysical properties of indene-1,3-dionemethylene-1,4-dihydropyridine derivatives. Journal of Materials Chemistry C, 2016, 4, 5970-5980. PDF

    [1439] Guo B.;Cai X.;Xu S.; Fateminia, S. M. A.; Liu, J.; Liang, J.;Feng G.;Wu W.; and Bin Liu., Decoration of Porphyrin with Tetraphenylethene: Converting Fluorophore with Aggregation-Caused Quenching to Aggregation-Induced Emission. Journal of Materials Chemistry B, 2016, 4, 4690-4695. PDF

    [1438] Wang, L.; Wang, W.; Xie, Z.,Tetraphenylethylene-based fluorescent coordination polymers for drug delivery. Journal of Materials Chemistry B, 2016, 4, 4263-4266. PDF

    [1437] Huang, M.; Yu, R.; Xu, K.; Ye, S.; Kuang, S.; Zhu, X.; Wan, Y., An arch-bridge-type fluorophore for bridging the gap between aggregation-caused quenching (ACQ) and aggregation-induced emission (AIE). Chemical Science, 2016, 7, 4485-4491. PDF

    [1436] Wang, L.; Zhu, L.; Li, L.; Cao, D.,Tetraphenylethene-functionalized diketopyrrolopyrrole solid state emissive molecules: enhanced emission in the solid state and as a fluorescent probe for cyanide detection. RSC Advances, 2016, 6, 55182-55193. PDF

    [1435] Wei, Y.; Chen, W.; Zhao, X.; Ding, S.; Han, S.; Chen, L.,Solid-state emissive cyanostilbene based conjugated microporous polymers via cost-effective Knoevenagel polycondensation. Polymer Chemistry,2016, 7, 3983-3988. PDF

    [1434] Li, S.; Shang, Y.; Wang, L.; Kwok, R. T.; Tang, B. Z.,Donor–acceptor π-conjugated aggregation-induced emission molecules for reversible nanometer-scale data storage. Journal of Materials Chemistry C, 2016, 4, 5363-5369. PDF

    [1433] Hu, L.; Duan, Y.; Xu, Z.; Yuan, J.; Dong, Y.; Han, T.,Stimuli-responsive fluorophores with aggregation-induced emission: implication for dual-channel optical data storage. Journal of Materials Chemistry C, 2016, 4, 5334-5341. PDF

    [1432] Xue, P.; Ding, J.; Chen, P.; Wang, P.; Yao, B.; Sun, J.; Sun J.; Lu, R., Mechanical force-induced luminescence enhancement and chromism of a nonplanar D-A phenothiazine derivative. Journal of Materials Chemistry C, 2016, 4, 5275-5280. PDF

    [1431] Chen, L.; Lin, G.; Peng, H.; Nie, H.; Zhuang, Z.; Shen, P.; Ding, S.; Huang, D.; Chen S.; Huang, F.; Qin A.; Zhao. Z.; Tang B. Z.,Dimesitylboryl-functionalized tetraphenylethene derivatives: efficient solid-state luminescent materials with enhanced electron-transporting ability for nondoped OLEDs. Journal of Materials Chemistry C, 2016, 4,5241-5247. PDF

    [1430] Murshid, N.; Yuyama, K. I.; Wu, S. L.; Wu, K. Y.; Masuhara, H.; Wang, C. L.; Wang, X.,Highly-integrated, laser manipulable aqueous metal carbonyl vesicles (MCsomes) with aggregation-induced emission (AIE) and aggregation-enhanced IR absorption (AEIRA). Journal of Materials Chemistry C, 2016, 4, 5231-5240. PDF

    [1429] He, L.;Li, L.; Liu, X.; Wang, J.; Huang, H.; Bu, W.,Acid-base-controlled and dibenzylammonium-assisted aggregation induced emission enhancement of poly(tetraphenylethene) with an impressive blue shift. Polymer Chemistry, 2016, 7, 3722-3730. PDF

    [1428] Yu, W.; Wu, Y.; Chen, J.; Duan, X.; Jiang, X. F.; Qiu, X.; Li, Y.,Sulfonated ethylenediamine–acetone–formaldehyde condensate: preparation, unconventional photoluminescence and aggregation enhanced emission. Rsc Advances, 2016, 6, 51257-51263. PDF

    [1427] Zhao, Z.; Chen, T.; Jiang, S., et al. The construction of a multicolored mechanochromic luminogenwith high contrast through the combination of a large conjugation core and peripheral phenylrings. Journal of Materials Chemistry C, 2016, 4, 4800-4804. PDF

    [1426] Ma, C.; Zhang, X.; Yang, Y., et al. Effect of alkyl length dependent crystallinity for the mechanofluorochromic feature of alkyl phenothiazinyl tetraphenylethenyl acrylonitrile derivatives. Journal of Materials Chemistry C, 2016, 4, 4786-4791. PDF

    [1425] Jin, Y. J.; Lee, W. E.; Lee, C. L., et al. Highly emissive ‘frozen-in’conjugated polymer nanofibers. Soft matter, 2016, 12, 4443-4448. PDF

    [1424] Zhang, Z.; Wu, Z.; Sun, J., et al. Multi-color solid-state emission of β-iminoenolate boron complexes tuned by methoxyl groups: aggregation-induced emission and mechanofluorochromism. RSC Advances, 2016, 6, 43755-43766. PDF

    [1423] Liu, Y.; Yao, Q.; Wu, X., et al. Gold nanocluster sensitized TiO 2 nanotube arrays for visible-light driven photoelectrocatalytic removal of antibiotic tetracycline. Nanoscale, 2016, 8, 10145-10151. PDF

    [1422] Zheng, T.; Xu, J. L.; Wang, X. J., et al. A novel nanoscale organic–inorganic hybrid system with significantly enhanced AIE in aqueous media. Chemical Communications, 2016, 52, 6922-6925. PDF

    [1421] Huang, P. Y.; Gao, J. Y.; Song, C. Y., et al. Multiple-responsive ionic complex luminogen of quinine and camphorsulfonic acid with aggregation-induced emission. RSC Advances, 2016, 6, 38201-38208. PDF

    [1420] Li, J.; Yang, W.; Zhou, W., et al. Aggregation-induced emission in fluorophores containing a hydrazone structure and a central sulfone: restricted molecular rotation. RSC Advances, 2016, 6, 35833-35841. PDF

    [1419] Palakollu, V.; Vasu, A. K.; Thiruvenkatam, V., et al. A sensitive AIEE probe for amphiphilic compounds. New Journal of Chemistry, 2016, 40, 4588-4594. PDF

    [1418] Mukundam, V.; Dhanunjayarao, K.; Mamidala, R., et al. Synthesis, characterization and aggregation induced enhanced emission properties of tetraaryl pyrazole decorated cyclophosphazenes. Journal of Materials Chemistry C, 2016, 4, 3523-3530. PDF

    [1417] Yu, G.; Wu, D.; Li, Y., et al. A pillar [5] arene-based [2] rotaxane lights up mitochondria. Chemical Science, 2016, 7, 3017-3024. PDF

    [1416] Zhou, J.; Hua, B.; Shao, L., et al. Host–guest interaction enhanced aggregation-induced emission and its application in cell imaging. Chemical Communications, 2016, 52, 5749-5752. PDF

    [1415] Radhakrishnan, R.; Sreejalekshmi, K. G., Fluorophores based on a minimal thienylthiazole core: towards multifunctional materials with solid state red emissions, solvatochromism and AIE behaviour. RSC Advances, 2016, 6, 32705-32709. PDF

    [1414] Wang, C.; Jiang, K.; Xu, Z., et al. Glutathione modified carbon-dots: from aggregation-induced emission enhancement properties to a “turn-on” sensing of temperature/Fe 3+ ions in cells. Inorganic Chemistry Frontiers, 2016, 3, 514-522. PDF

    [1413] Botta, C.; Benedini, S.; Carlucci, L., et al. Polymorphism-dependent aggregation induced emission of a push–pull dye and its multi-stimuli responsive behavior. Journal of Materials Chemistry C, 2016, 4, 2979-2989. PDF

    [1412] Wang, Z.; Gelfand, B. S.; Dong, P., et al. Tuning the aggregation-induced enhanced emission behavior and self-assembly of phosphole-lipid. Journal of Materials Chemistry C, 2016, 4, 2936-2944. PDF

    [1411] Chen, M.; Nie, H.; Song, B., et al. Triphenylamine-functionalized tetraphenylpyrazine: facile preparation and multifaceted functionalities. Journal of Materials Chemistry C, 2016, 4, 2901-2908. PDF

    [1410]Yu, G.; Wu, D.; Li, Y.; Zhang, Z.; Shao, L.; Zhou, J., Hu, Q.; Tang, G.; Huang, F., A pillar [5] arene-based [2] rotaxane lights up mitochondria. Chemical Science, 2016, 7, 3017-3024. PDF

    [1409] Radhakrishnan, R.; Sreejalekshmi, K. G., Fluorophores based on a minimal thienylthiazole core: towards multifunctional materials with solid state red emissions, solvatochromism and AIE behaviour. RSC Advances, 2016, 6, 32705-32709. PDF

    [1408] Wang, C.; Jiang, K.; Xu, Z.; Lin, H.; Zhang, C., Glutathione modified carbon-dots: from aggregation-induced emission enhancement properties to a “turn-on” sensing of temperature/Fe 3+ ions in cells. Inorganic Chemistry Frontiers, 2016, 3, 514-522. PDF

    [1407] Botta, C.; Benedini, S.; Carlucci, L.; Forni, A.; Marinotto, D.; Nitti, A.;Righetto, S.; Cariati, E., Polymorphism-dependent aggregation induced emission of a push–pull dye and its multi-stimuli responsive behavior. Journal of Materials Chemistry C, 2016, 4, 2979-2989. PDF

    [1406] Wang, Z.; Gelfand, B. S.; Dong, P.; Trudel, S.; Baumgartner, T., Tuning the aggregation-induced enhanced emission behavior and self-assembly of phosphole-lipids. Journal of Materials Chemistry C, 2016, 4, 2936-2944. PDF

    [1405] Chen, M.; Nie, H.; Song, B.; Li, L.; Sun, J. Z.; Qin, A.; Tang, B. Z., Triphenylamine-functionalized tetraphenylpyrazine: facile preparation and multifaceted functionalities. Journal of Materials Chemistry C, 2016, 4, 2901-2908. PDF

    [1404] Yang, J.; Huang, J.; Li, Q.; Li, Z., Blue AIEgens: approaches to control the intramolecular conjugation and the optimized performance of OLED devices. Journal of Materials Chemistry C, 2016, 4, 2663-2684. PDF

    [1403] Fan, Z. X.; Zhao, Q. H.; Wang, S.; Bai, Y.; Wang, P. P.; Li, J. J.; Chu, Z. W.;Chen, G. H., Polyurethane foam functionalized with an AIE-active polymer using an ultrasonication-assisted method: preparation and application for the detection of explosives. RSC Advances, 2016, 6, 26950-26953. PDF

    [1402] Yang, J.; Rui, J.; Xu, X.; Yang, Y.; Su, J.; Xu, H.; Wang, Y.; Sun, N.; Wang, S., Fluorescence staining of salicylaldehyde azine, and applications in the determination of potassium tert-butoxide. RSC Advances, 2016, 6, 30636-30641. PDF

    [1401] Padalkar, V. S.; Sakamaki, D.; Kuwada, K.; Tohnai, N.; Akutagawa, T.; Sakai, K. I.; Seki, S., AIE active triphenylamine–benzothiazole based motifs: ESIPT or ICT emission. RSC Advances, 2016, 6, 26941-26949. PDF

    [1400] Kala, K.;Manoj, N., A carbazole based “Turn on” fluorescent sensor for selective detection of Hg 2+ in an aqueous medium. RSC Advances, 2016, 6, 22615-22619. PDF

    [1399] Ganguly, M.; Jana, J.; Pal, A.; Pal, T., Synergism of gold and silver invites enhanced fluorescence for practical applications. RSC Advances, 2016, 6, 17683-17703. PDF

    [1398] Deng, H.; Zhao, E.; Leung, A. C.; Hu, R.; Zhang, Y.; Lam, J. W.; Tang, B. Z.,  Multicomponent sequential polymerizations of alkynes, carbonyl chloride and amino ester salts toward helical and luminescent polymers.Polymer Chemistry, 2016, 7, 1836-1846. PDF

    [1397] Wu, J. H.; Chen, W. C.; Liou, G. S., Triphenylamine-based luminogens and fluorescent polyimides: effects of functional groups and substituents on photophysical behaviors. Polymer Chemistry, 2016, 7, 1569-1576. PDF

    [1396] Ipuy, M.; Liao, Y. Y.; Jeanneau, E.; Baldeck, P. L.; Bretonnière, Y.; Andraud, C., Solid state red biphotonic excited emission from small dipolar fluorophores. Journal of Materials Chemistry C, 2016, 4, 766-779. PDF

    [1395] Yin, G.;Ma, Y.; Xiong, Y.; Cao, X.; Li, Y.; Chen, L.,Enhanced AIE and different stimuli-responses in red fluorescent (1,3-dimethyl)barbituric acid-functionalized anthracenes Materials Chemistry C.2016, 4, 751-757. PDF

    [1394] Wang, H.; Liang, Y.; Xie, H.; Lu, H.; Zhao, S.; Feng, S., Unexpected SiMe 3 effect on color-tunable and fluorescent probes of dendritic polyphenyl naphthalimides with aggregation-induced emission enhancement. Journal of Materials Chemistry C, 2016, 4, 745-750. PDF

    [1393] Ouyang, M.; Zhan, L.; Lv, X.; Cao, F.; Li, W.; Zhang, Y.; Wang, K.; Zhang, C., Clear piezochromic behaviors of AIE-active organic powders under hydrostatic pressure. RSC Advances, 2016, 6, 1188-1193. PDF

    [1392] Xing, L. B.; Wang, X. J.; Zhang, J. L.; Zhou, Z.; Zhuo, S., Tetraphenylethene-containing supramolecular hyperbranched polymers: aggregation-induced emission by supramolecular polymerization in aqueous solution. Polymer Chemistry, 2016, 7, 515-518. PDF

    [1391] Lanke, S. K.; & Sekar, N., Aggregation induced emissive carbazole-based push pull NLOphores: synthesis, photophysical properties and DFT studies. Dyes and Pigments, 2016, 124, 82-92. PDF

    [1390] Bhowmick, R.; Islam, A. S. M.; Katarkar, A.; Chaudhuri, K.; Ali, M., Surfactant modulated aggregation induced enhancement of emission (AIEE) a simple demonstration to maximize sensor activity. Analyst, 2016, 141, 225-235. PDF

    [1389] Lin, L. Y.; Huang, P. C.; Yang, D. J.; Gao, J. Y.; Hong, J. L., Influence of the secondary structure on the AIE-related emission behavior of an amphiphilic polypeptide containing a hydrophobic fluorescent terminal and hydrophilic pendant groups. Polymer Chemistry, 2016, 7, 153-163. PDF

    [1388] Mohamed, M. G.; Hsu, K. C.; Hong, J. L.; Kuo, S. W., Unexpected fluorescence from maleimide-containing polyhedral oligomeric silsesquioxanes: nanoparticle and sequence distribution analyses of polystyrene-based alternating copolymers. Polymer Chemistry, 2016, 7, 135-145. PDF

    [1387] Yang, H.; Xiang, K.; Li, Y.; Li, S.; Xu, C., Novel AIE luminogen containing axially chiral BINOL and tetraphenylsilole. Journal of Organometallic Chemistry, 2016, 801, 96-100.  PDF

    [1386] Yuan, Y.; Xu, S.; Zhang, C. J.; Zhang, R.; Liu, B., Dual-targeted activatable photosensitizers with aggregation-induced emission (AIE) characteristics for image-guided photodynamic cancer cell ablation. Journal of Materials Chemistry B, 2016, 4, 169-176. PDF