66  Qi, J; Sun, CW; Zebibula, A; Zhang, HQ; Kwok, RTK; Zhao, XY; Xi, W; Lam JWY; Qian, J* and Tang BZ*. “Real-Time and High-Resolution Bioimaging with Bright Aggregation-Induced Emission Dots in Short-Wave Infrared Region”, Adv. Mater., in press, (2017).


65  Zebibula, A; Alifu, N; Xia, LQ; Sun, CW; Yu, XM; Xue, DW; Liu, LW; Li, GH* and Qian J*. “Ultrastable and biocompatible NIR-II quantum dots for functional bioimaging”, Adv. Funct. Mater., 1703451: 1-13, (2018).


64  Sun, XH; Zebibula, A; Dong, XB; Li, GH; Zhang, GX; Zhang, DQ; Qian, J and He SL. “Targeted and Imaging-guided In Vivo Photodynamic Therapy of Tumors Using Dual-functional, Aggregation-induced Emission Nanoparticles”, Nano Res, in press, (2017).


63  Pu, Y; Lin, LF; Wang, D; Wang, JX; Qian, J and Chen JF. “Green synthesis of highly dispersed ytterbium and thulium co-doped sodium yttrium fluoride microphosphors for in situ light upconversion from near-infrared to blue in animals”, J Colloid Interf Sci, 511: 243-250, (2018). [PDF]


62  Wang, YL; Chen, M; Alifu, N; Li, SW; Qin, W; Qin, AJ*; Tang, BZ* and Qian J*. “Aggregation-induced emission luminogen with deep-red emission for through-skull three-photon fluorescence imaging of mouse”, ACS. Nano.11: 10452–10461, (2017)[PDF]


61  Li, DY; Qin, W; Xu, B; Qian, J* and Tang BZ*. “AIE nanoparticles with high stimulated emission depletion efficiency and photobleaching resistance for long-term super-resolution bioimaging”, Adv. Mater.17036431-9, (2017)[PDF]


60  Wang, YL; Han, X; Xi, W; Li, JY; Roe Wang, A;  Lu, P* and Qian, J*. “Bright AIE nanoparticles with F127 encapsulation for deep-tissue three-photon intravital brain angiography”, Adv. Healthcare. Mater.1700685: 1-10, (2017). [PDF]


59  Alifu, N; Dong, XB; Li, DY; Sun, XH; Zebibula, A;  Zhang, DQ; Zhang, GX* and Qian, J*. “Aggregation-induced emission nanoparticles as photosensitizer for two-photon photodynamic therapy”, Mater. Chem. Front., DOI: 10.1039/c7qm00092h, (2017). [PDF]


58  Qian, J and Tang BZ*. “AIE Luminogens for Bioimaging and Theranostics: from Organelles to Animals”, Chem (Invited Review), 3: 56-91, (2017). [PDF]


57  Nicol, A; Qin, W; Kwok, RTK; Burkhartsmeyer, JM; Zhu, ZF; Luo, WW; Su, HF; Lam JWY; Qian, J; Wong, KS and Tang BZ. “Functionalized AIE nanoparticles with efficient deep-red emission, mitochondria specificity, cancer cell selectivity and multiphoton susceptibility”, Chem Sci, 8: 4634-4643, (2017). [PDF]


56  Alifu, N; Yan, LL; Zhang, HQ; Zebibula, A; Zhu, ZG; Xi, W; Roe Wang, A; Xu, B*; Tian, WJ and Qian, J*. “Organic dye doped nanoparticles with NIR emission and biocompatibility for ultra-deep in vivo two-photon microscopy under 1040 nm femtosecond excitation”, Dyes Pigments143: 76-85, (2017). [PDF] 


55  Alifu, N; Sun, ZZ; Zebibula, A; Zhu, ZG; Zhao, XY; Wu, CF; Wang, YL* and Qian, J*. “Deep-red polymer dots with bright two-photon fluorescence and high biocompatibility for in vivo mouse brain imaging”, Opt Commun399: 120-126 (2017). [PDF]


54  Zhang, HQ; Alifu, N; Jiang, T; Zhu, ZG; Wang, YL; Hua, JL* and Qian, J*. “Biocompatible aggregation-induced emission nanoparticles with red emission for in vivo three-photon brain vascular imaging”, J. Mater. Chem. B, 5: 2757-2762 (2017). [PDF] 


53  Ouyang, QL; Zeng, SW; Jiang, L; Qu, JL; Dinh, XQ; Qian, J; He, SL; Coquet, P and Yong, KT. “Two-Dimensional Transition Metal Dichalcogenide Enhanced Phase-Sensitive Plasmonic Biosensors: Theoretical Insight”, J. Phys. Chem. C121: 6282-6289, (2017). [PDF]





52  Li, DY; Xue, L; Zhu, ZF; Zhao, XY* and Qian, J* “Graphene oxide nanoparticles for two-photon fluorescence imaging of zebrafish”, Opt Quant Electron48: 519 (2016). [PDF] 


51  Wang, SW; Zhao, XY; Wang, SC; Qian, J* and He, SL*. “Biologically Inspired Polydopamine Capped Gold Nanorods for Drug Delivery and Light-Mediated Cancer Therapy”, ACS Appl. Mater. Interfaces, 8(37): 24368–24384, (2016). [PDF]


50  Wang, YJ; Shi, Y; Wang, ZY; Zhu, ZF; Zhao, XY; Nie, H;  Qian, J; Qin AJ; Sun JZ and Tang BZ. “A Red to Near-IR Fluorogen: Aggregation-Induced Emission, Large Stokes Shift, High Solid Efficiency and Application in Cell-Imaging”, Chem. Eur. J., 22(28): 9784-9791, (2016). [PDF]


49  Ouyang, QL; Zeng, SW; Jiang, L; Hong, LY; Xu, GX; Dinh, XQ;  Qian, J; He SL; Qu JL; Coquet, P and Yong KT. “Sensitivity Enhancement of Transition Metal Dichalcogenides/Silicon Nanostructure-based Surface Plasmon Resonance Biosensor”, Sci Rep6: 28190, (2016).[PDF]


48  Jiang, L; Zhao, XY; Fei, Y; Yu, DD; Qian, J; Tong, JG; Chen, GD and He SL. “The effects of magnetic fields exposure on relative permittivity of saline solutions measured by a high resolution SPR system”, Sci Rep6: 25111, (2016). [PDF]


47  Jiang, T; Li, DY; Huang, YD; Gao, YT; Zhang, HQ; Zhao, XY; Li, X; Li, B; Qian, J* and Hua, JL*. “Tetraphenylethene end-capped diketopyrrolopyrrole fluorogens with AIE and large two-photon absorption cross-sections features and application in bioimaging”, Dyes Pigments133: 201-213, (2016). [PDF]


46  Wang, SW; Zhao, XY; Qian, J* and He, SL*. “Polyelectrolyte coated BaTiOnanoparticles for second harmonic generation imaging-guided photodynamic therapy with improved stability and enhanced cellular uptake”, RSC Adv6: 40615-40625 (2016). [PDF]


45  Li, DY; Zhao, XY; Qin, W; Zhang, HQ; Fei, Y; Liu LW; Yong KT; Chen, GD*; Tang BZ* and Qian, J*. “Toxicity Assessment and Long-term Three-photon Fluorescence Imaging of Bright AIE Nanodots in Zebrafish”, Nano Res, 9(7): 1921–1933, (2016). [PDF]


44  Zhu, ZF; Qian, J (共同一作); Zhao, XY; Qin W; Hu RR; Zhang HQ; Li DY; Xu ZP; Tang BZ and He SL. “Stable and Size-Tunable Aggregation-Induced Emission Nanoparticles Encapsulated with Nano graphene Oxide and Applications in Three-Photon Fluorescence Bioimaging”, ACS Nano10: 588-597, (2016). [PDF]





43  Zhu, ZF; Leung CWT; Zhao, XY; Wang YL; Qian, J*; Tang BZ and He SL*. “Using AIE Luminogen for Longterm and Low-background Three-Photon Microscopic Functional Bioimaging”, Sci Rep5: 15189, (2015). [PDF]


42  Wang, YL; Hu RR; Xu, W; Cai FH; Wang SW; Zhu ZF; Bai RP and Qian, J*. “Red emissive AIE nanodots with high two-photon absorption efficiency at 1040 nm for deep-tissue in vivo imaging”, Biomed. Opt. Express. 6(10): 3783-3794 (2015). [PDF]


41  Li, DY; Zhang, HQ; Chu, LL; Zhao, XY and Qian, J*. “Photosensitizer doped colloidal mesoporous silica nanoparticles for three-photon photodynamic therapy”, Opt Quant Electron, 47(8): 3081-3090 (2015).[PDF]


40  Yu, JX; Sun, XH; Cai, FH; Zhu, ZF; Qin, AJ; Qian, J*; Tang, BZ and He, SL. “Low photobleaching and high emission depletion efficiency: the potential of AIE luminogen as fluorescent probe for STED microscopy”, Opt. Lett. 40(10): 2313-2316 (2015). [PDF]


39  Qian, J; Zhu, ZF; Leung, CWT; Xi, W; Su, LL; Chen, GD; Qin, AJ; Tang, BZ and He, SL. “Long-term two-photon neuroimaging with a photostable AIE luminogen”, Biomed. Opt. Express. 6(4): 1477-1486 (2015). [PDF]


38  Qian, J; Zhu, ZF; Qin, AJ; Qin, W; Chu, LL; Cai, FH; Zhang, HQ; Wu, Q; Hu, RR; Tang, BZ and He, SL. “High-Order Non-linear Optical Effects in Organic Luminogens with Aggregation-Induced Emission”, Adv. Mater. 27(14): 2332-2339 (2015). [PDF]


37  Li, KH; Wang, YL; Cai, FH; Yu, JX; Wang, SW; Zhu, ZF; Chu, LL;Zhang, HQ; Qian, J* and He, SL*. “Nonlinear optical properties of Au/Ag alloyed nanoboxes and their applications in both in vitro and in vivo bioimaging under long-wavelength femtosecond laser excitation”, RSC Advances5(4): 2851-2856 (2015). [PDF]


36  Wang, SW; Xi, W; Cai, FH; Zhao, XY; Xu, ZP; Qian, J* and He, SL*. “Three-Photon Luminescence of Gold Nanorods and Its Applications for High Contrast Tissue and Deep In Vivo Brain Imaging”, Theranostics5(3): 251-266 (2015). [PDF]





35  Chu, LL; Wang, SW; Li, KH; Xi, W; Zhao, XY and Qian, J*. “Biocompatible Near-Infrared Fluorescent Nanoparticles for Macro and Microscopic In Vivo Functional Bioimaging”, Biomed. Opt. Express. 5(11): 4076-4088 (2014). [PDF]


34  Cai, FH; Yu, JX; Qian, JWang, Y; Chen, Z; Huang, JY;  Ye, ZZ and He, SL. “Use of tunable second-harmonic signal from KNbO3 nanoneedles to find optimal wavelength for deep-tissue imaging”, Laser Photonics Rev, 8(6): 865–874 (2014). [PDF]


33  Yu, JX; Cai, FH; Wang, Y; Chen, Z; Huang, JY;  Ye, ZZ and Qian, J*. “Supercontinuum pulse measurement by KNbO3 nanoneedle based cross-correlation frequency-resolved optical gating (XFROG)”, Opt Quant Electron47(5): 1083-1089 (2015). [PDF]


32  Lin, J; Zhang, Y; Qian, J and He, SL. “A nano-plasmonic chip for simultaneous sensing with dual-resonance surface-enhanced Raman scattering and localized surface plasmon resonance”, Laser Photonics Rev8(4): 610-616 (2014). [PDF]


31  Wang, D; Qian, J (共同一作); Qin, W; Qin, AJ; Tang, BZ and He, SL. “Biocompatible and Photostable AIE Dots with Red Emission for In Vivo Two-Photon Bioimaging”, Sci Rep4: 4279, (2014). [PDF]





30  Zhu, ZF; Zhao, XY; Qin, W; Chen, GD; Qian, J* and Xu, ZP. “Fluorescent AIE dots encapsulated organically modified silica (ORMOSIL) nanoparticles for two-photon cellular imaging”, Aci China Chem, 56: 1247-1252 (2013). [PDF]


29  Jiang, L; Schie, IW; Qian, J; He, SL and Huser, T. “Coherent Anti-Stokes Emission from Gold Nanorods and its Potential for Imaging Applications”, ChemPhysChem, 14: 1951-1955 (2013). [PDF]


28  Cheng, H; Qin, W; Zhu, ZF; Qian, J; Qin, AJ; Tang, BZ and He, SL. “Nanoparticles with aggregation-induced emission for monitoring long time cell membrane interactions”, Prog. Electromagn. Res, 140: 313-325 (2013). [PDF]


27  Zhan, QQ; He, SL; Qian, J; Cheng, H and Cai FH. “Optimization of Optical Excitation of Upconversion Nanoparticles for Rapid Microscopy and Deeper Tissue Imaging with Higher Quantum Yield”, Theranostics3(5): 306-316 (2013). [PDF]


26  Xu, CT; Zhan, QQ; Liu, HC; Somesfalean, G; Qian, J; He, SL and Andersson-Engels, S. “Upconverting nanoparticles for pre-clinical diffuse optical imaging, microscopy and sensing: Current trends and future challenges”, Laser Photonics Rev, 1-35 (2013). [PDF]


25  Zhang, Y; Qian, J; Wang, D; Wang, YL and He, SL. “Multifunctional Gold Nanorods with Ultrahigh Stability and Tunability for In Vivo Fluorescence Imaging, SERS Detection, and Photodynamic Therapy”, Angew. Chem. Int. Edit.52: 1148-1151 (2013). [PDF]





24  Qian, J; Wang, D; Cai, FH; Xi, W; Peng, L; Zhu, ZF; He, H; Hu, ML and He, SL. “Observation of Multiphoton-Induced Fluorescence from Graphene Oxide Nanoparticles and Applications in In Vivo Functional Bioimaging”, Angew. Chem. Int. Edit.51: 10570-10575 (2012). [PDF]


23  Liu, XW; Lin, J; Jiang, TF; Zhu, ZF; Zhan, QQ; Qian, J; and He, SL. “Surface plasmon properties of hollow auag alloyed triangular nanoboxes and its applications in sers imaging and potential drug delivery”, Prog. Electromagn. Res, 128: 35-53 (2012). [PDF]


22  Liu, QK; Senyuk, B; Tang, JW; Lee, T; Qian, J; He, SL and Smalyukh, I. “Plasmonic Complex Fluids of Nematiclike and Helicoidal Self-Assemblies of Gold Nanorods with a Negative Order Parameter”, Phys. Rev. Lett.109: 088301 (2012). [PDF]


21  Wang, D; Qian, J; Cai, FH; He, SL; Han, SH and Mu, Y. “'Green'-synthesized near-infrared PbS quantum dots with silica–PEG dual-layer coating: ultrastable and biocompatible optical probes for in vivo animal imaging”, Nanotechnology23: 245701-1 (2012). [PDF]


20  Qian, J; Wang, D; Cai, FH; Zhan, QQ; Wang, YL and He, SL. “Photosensitizer encapsulated organically modified silica nanoparticles for direct two-photon photodynamic therapy and In Vivo functional imaging”, Biomaterials32: 4851-4860 (2012). [PDF]





19  Wang, D; Qian, J (共同一作); He, SL; Park, J; Lee, K; Han, SH and Mu, Y. "Aggregation-enhanced fluorescence in PEGylated phospholipid nanomicelles for in vivo imaging",Biomaterials32: 5880-5888 (2011). [PDF]


18  Zhan, QQ; Qian, J (共同一作); Liang, H; Somesfalean, G; Wang, D; He, SL; Zhang, Z and Andersson-Engels, S. “Using 915-nm laser excited Tm3+/Er3+/Ho3+ doped NaYbF4 upconversion nanoparticles for in vitro and deeper in vivo bioimaging without overheating irradiation”, ACS Nano, 5(5): 3744-3757 (2011). [PDF]


17  Qian, J; Jiang, L; Cai, FH; Wang, D and He, SL. “Fluorescence-Surface Enhanced Raman Scattering Co-functionalized Gold Nanorods as Near-infrared Probes for Purely Optical In vivo Imaging”, Biomaterials, 32: 1601-1610 (2011). [PDF]


16  Cai, FH; Qian, J; Jiang, L and He, SL. “Multifunctional optical imaging using dye-coated gold nanorods in a turbid medium”, J. Biomed. Opt., 16(1): 016002-8 (2011). [PDF]


15  Jiang, L; Qian, J*; Cai, FH and He, SL. “Raman reporter-coated gold nanorods and their applications in multimodal optical imaging of cancer cells”, Anal Bioanal Chem, 400(9): 2793-2800 (2011). [PDF]


14  Qiao, L; Wang, D; Zuo, L; Ye, YQ; Qian, J*; Chen, HZ and He, SL. “Localized Surface Plasmon Resonance Enhanced Organic Solar Cell with Gold Nanospheres,” Appl Energ88: 848-852 (2011). [PDF]





13  Qian, J; Fu, T; Zhan, QQ and He, SL. (invited paper), “Using Some Nanoparticles as Contrast Agents for Optical Bio-imaging,” IEEE J Sel Top Quant16(3): 672-684 (2010). [PDF]


12  Zhan, QQ; Qian, J*; Li, X and He, SL. “A study of mesoporous silica-encapsulated gold nanorods as enhanced light scattering probes for cancer cell imaging”, Nanotechnology21: 055704-1 (2010). [PDF]


11  Chen, LL; Jiang, L; Wang, YL; Qian, J* and He, SL. “Multilayered Polyelectrolyte Coated Gold Nanorods as Multifunctional Optical Contrast Agents for Cancer Cell Imaging”, Journal of Zhejiang University-SCIENCE B: Biomedicine & Biotechnology11(6): 417-422 (2010).[PDF]


10  Qian, J; Wang, YL; Gao, XW; Zhan, QQ; Xu, ZP and He, SL. “Carboxyl-functionalized and Bio-conjugated Silica-coated Quantum Dots as Targeting Probes for Cell Imaging,” J. Nanosci and Nanotechno.10: 1668-1675 (2010). [PDF]





9  Wei, M; Qian, J; Zhan, QQ; Cai, FH; Gharibi, A and He, SL. “Differential absorption optical coherence tomography with strong absorption contrast agents of gold nanorods”, Frontiers of Optoelectronics in China2(2): 141–145 (2009). [PDF]


8  Qian, J; Chen, QL; Cai, FH; Kong, SK; Ho, HP and He, SL. “Quantum Dots Doped ORMOSIL Nanoparticles as Optical Probes for Total Internal Reflection Fluorescence Imaging of Cancer Cells,” IEEE J Sel Top Quant15(5): 1374-1379 (2009). [PDF]


7  Li, X; Qian, J; Jiang, L and He, SL. "Fluorescence quenching of quantum dots by gold nanorods and its application to DNA detection" Appl. Phys. Lett.94: 063111 (2009). [PDF]


6  Qian, J; Gharibi, A and He, SL. “Colloidal Mesoporous Silica Nanoparticles with Protoporphyrin IX Encapsulated for Photodynamic Therapy,” J. Biomed. Opt.14(1): 014012-6 (2009). [PDF]


5  Li, X; Jiang, L; Zhan, QQ; Qian, J* and He, SL. “Localized surface plasmon resonance (LSPR) of polyelectrolyte-functionalized gold-nanoparticles for bio-sensing”, Colloid Surface A332: 172-179 (2009). [PDF]





4  Qian, J, Li, X; Wei, M; Gao, XW; Xu, ZP and He, SL. “Bio-molecule-conjugated fluorescent organically modified silica nanoparticles as optical probes for cancer cell imaging,” Opt Express16(24): 19568–19578 (2008). [PDF]


3  Li, X; Qian, J and He, SL. “Impact of the self-assembly of multilayer polyelectrolyte functionalized gold nanorods and its application to biosensing,” Nanotechnology19: 355501-355507 (2008). [PDF]





2  Qian, J; Yong, K; Roy, I; Ohulchanskyy, TY; Bergey, EJ; Lee, HH; Tramposch, KM; He, SL; Maitra, A and Prasad, PN. “Imaging Pancreatic Cancer Using Surface-Functionalized Quantum Dots,” J. Phys. Chem. B111(25): 6969-6972 (2007). [PDF]


1  Yong, K; Qian, J; Roy, I; Lee, HH; Bergey, EJ; Tramposch, KM; He, SL;  Swihart, MT; Maitra, A and Prasad, PN. “Quantum Rod Bioconjugates as Targeted Probes for Confocal and Two-Photon Fluorescence Imaging of Cancer Cells,” Nano Lett7(3): 761-765(2007).[PDF]