2035
当前位置: 首页   >  成果及论文
成果及论文

[1] S. Zhu, M. Li, Y. Zhang, S. tang, J. Yang, Y. Wang, L. Sun, L. Sheng, B. Yang, S.X.-A.J.R.a. Zhang, Hyperconjugation effect on fluorescence enhancement of biomimic disulfide substituted spirooxazine, 3 (2013) 19752-19755.

[2] S. Zhu, M. Li, S. tang, Y.M. Zhang, B. Yang, S.X.A.J.E.J.o.O.C. Zhang, Electrochromic switching and microkinetic behaviour of oxazine derivatives and their applications, 2014 (2014) 1227-1235.

[3] S. Swaminathan, C. Fowley, E.R. Thapaliya, B. McCaughan, S. tang, A. Fraix, B. Captain, S. Sortino, J.F. Callan, F.M.J.N. Raymo, Supramolecular nanoreactors for intracellular singlet-oxygen sensitization, 7 (2015) 14071-14079.

[4] E.R. Thapaliya, C. Fowley, B. Callan, S. tang, Y. Zhang, J.F. Callan, F.M.J.L. Raymo, Energy-transfer schemes to probe fluorescent nanocarriers and their emissive cargo, 31 (2015) 9557-9565.

[5] Y. Zhang, S. Swaminathan, S. tang, J. Garcia-Amorós, M. Boulina, B. Captain, J.D. Baker, F.M.J.J.o.t.A.C.S. Raymo, Photoactivatable BODIPYs designed to monitor the dynamics of supramolecular nanocarriers, 137 (2015) 4709-4719.

[6] M. Bälter, S. Li, M. Morimoto, S. tang, J. Hernando, G. Guirado, M. Irie, F.M. Raymo, J.J.C.s. Andréasson, Emission color tuning and white-light generation based on photochromic control of energy transfer reactions in polymer micelles, 7 (2016) 5867-5871.

[7] J. Garcia-Amorós, S. tang, Y. Zhang, E.R. Thapaliya, F.M.J.L.-r.n.s.f.a.i.n. Raymo, Self-assembling nanoparticles of amphiphilic polymers for in vitro and in vivo FRET imaging, (2016) 29-59.

[8] S.S. Ragab, E.R. Thapaliya, Y. Zhang, S. tang, J.B. McMahan, S. Syed, B. Captain, F.M.J.R.a. Raymo, Synthesis in living cells with the assistance of supramolecular nanocarriers, 6 (2016) 32441-32445.

[9] S. tang, B. Donaphon, M. Levitus, F.M.J.L. Raymo, Structural implications on the properties of self-assembling supramolecular hosts for fluorescent guests, 32 (2016) 8676-8687.

[10] Y. Zhang, S. tang, L. Sansalone, J.D. Baker, F.M.J.C.A.E.J. Raymo, A photoswitchable fluorophore for the realtime monitoring of dynamic events in living organisms, 22 (2016) 15027-15034.

[11] Y. Zhang, E.R. Thapaliya, S. tang, J.D. Baker, F.M.J.R.a. Raymo, Supramolecular delivery of fluorescent probes in developing embryos, 6 (2016) 72756-72760.

[12] A. Pietropaolo, S. tang, F.M.J.N. Raymo, Free-energy predictions and absorption spectra calculations for supramolecular nanocarriers and their photoactive cargo, 9 (2017) 4989-4994.

[13] L. Sansalone, S. tang, Y. Zhang, E.R. Thapaliya, F.M. Raymo, J.J.P.S.N.Q.D.F. Garcia-Amorós, Applications, Semiconductor quantum dots with photoresponsive ligands, (2017) 31-60.

[14] S. tang, Y. Zhang, E.R. Thapaliya, A.S. Brown, J.N. Wilson, F.M.J.A.s. Raymo, Highlighting cancer cells with halochromic switches, 2 (2017) 92-101.

[15] L. Sansalone, S. tang, J. Garcia-Amorós, Y. Zhang, S. Nonell, J.D. Baker, B. Captain, F.M.J.A.s. Raymo, A photoactivatable far-red/near-infrared BODIPY to monitor cellular dynamics in vivo, 3 (2018) 1347-1353.

[16] S. tang, Y. Zhang, P. Dhakal, L. Ravelo, C.L. Anderson, K.M. Collins, F.i.M.J.J.o.t.A.C.S. Raymo, Photochemical barcodes, 140 (2018) 4485-4488.

[17] Y. Zhang, K.-H. Song, S. tang, L. Ravelo, J. Cusido, C. Sun, H.F. Zhang, F.M.J.J.o.t.A.C.S. Raymo, Far-red photoactivatable BODIPYs for the super-resolution imaging of live cells, 140 (2018) 12741-12745.

[18] Y. Zhang, S. tang, E.R. Thapaliya, L. Sansalone, F.M.J.C.c. Raymo, Fluorescence activation with switchable oxazines, 54 (2018) 8799-8809.

[19] G. Naren, C.-W. Hsu, S. Li, M. Morimoto, S. tang, J. Hernando, G. Guirado, M. Irie, F.M. Raymo, H.J.N.c. Sundén, An all-photonic full color RGB system based on molecular photoswitches, 10 (2019) 3996.

[20] L. Sansalone, J. Bratsch-Prince, S. tang, B. Captain, D.D. Mott, F.M.J.P.o.t.N.A.o.S. Raymo, Photopotentiation of the GABAA receptor with caged diazepam, 116 (2019) 21176-21184.

[21] Y. Zhang, S. tang, L. Ravelo, J. Cusido, F.M. Raymo, Far-red photoactivatable BODIPYs for the super-resolution imaging of live cells,  Methods in enzymology, Academic Press2020, pp. 131-147.

[22] S. tang, W. Wang, X.J.C.o.i.c.b. Zhang, Direct visualization and profiling of protein misfolding and aggregation in live cells, 64 (2021) 116-123.

[23] S. tang, S. Ye, X.J.N.S.R. Zhang, When aggregation-induced emission meets protein aggregates, 8 (2021) nwab013.

[24] X. Cheng, Y. Zhu, S. tang, R. Lu, X. Zhang, N. Li, X.J.J.o.N. Zan, Material priority engineered metal-polyphenol networks: mechanism and platform for multifunctionalities, 20 (2022) 255.

[25] Y. Xie, D. Luo, J. Wiener, S. tang, S. Chepyshev, C.J.O.L. Schafmeister, Development of Fmoc-protected bis-amino acids toward automated synthesis of highly functionalized spiroligomers, 24 (2022) 3421-3425.

[26] S. tang, Y. Gao, W. Wang, Y. Wang, P. Liu, Z. Shou, R. Yang, C. Jin, X. Zan, C.J.A.M.L. Wang, Self-Report Amphiphilic Polymer-Based Drug Delivery System with ROS-Triggered Drug Release for Osteoarthritis Therapy, 13 (2023) 58-64.

[27] S. tang, R. Yang, Y. Gao, L. Zhu, S. Zheng, X.J.A.M.L. Zan, Hydrazone-based amphiphilic brush polymer for fast endocytosis and ROS-active drug release, 12 (2023) 639-645.

[28] L. Yang, J. Guo, L. Wang, S. tang, A.-f. Wang, S. Zheng, Z. Guo, X.J.B.S. Zan, Transformation of the shape and shrinking the size of acid-resistant metal–organic frameworks (MOFs) for use as the vehicle of oral proteins, 11 (2023) 3726-3736.

[29] S. Zhou, R. Yang, X. Xie, L. Wang, S. Zheng, N. Li, S. tang, X.J.A.S. Zan, pHResponsive HexaHistidine Metal Assembly (HmA) with Enhanced Biocatalytic Cascades as the Vehicle for GlucoseMediated LongActing Insulin Delivery, 10 (2023) 2301771.

[30] H. Xu, B. Mao, S. Ni, X. Xie, S. tang, Y. Wang, X. Zan, Q. Zheng, W.J.A.n. Huang, Engineering Matrix-Free Drug Protein Nanoparticles with Promising Penetration through Biobarriers for Treating Corneal Neovascularization, 18 (2024) 8209-8228.

[31] D. Yang, Z. Shou, X. Xie, Y. Tang, Z. Li, H. Chen, S. tang, X.J.I.J.o.B.M. Zan, Gelatin-based dynamic response antioxidant, anti-inflammatory multifunctional hydrogel for enhanced diabetic wound repair, 260 (2024) 129453.

[32] R. Yang, S. tang, X. Xie, C. Jin, W. Wang, W. Huang, X.J.A.M. Zan, Enhanced Ocular Delivery of Beva via UltraSmall Polymeric Micelles for Noninvasive AntiVEGF Therapy,  2314126.