Chair professor Department of Biomedical Engineering

Dayong Jin is a chair professor at Southern University of Science and Technology (2019-present). He did his PhD in 2007 at Macquarie University. He moved to the University of Technology Sydney in 2015 to direct the Institute for Biomedical Materials & Devices (IBMD) and was promoted to Distinguished Professor in 2017. His research has been in the physical, engineering and interdisciplinary sciences, with expertise covering biomedical optics, nanotechnology, microscopy, diagnostics and automation devices. Prof Jin is the winner of the Australian Museum Eureka Prize for Interdisciplinary Scientific Research in 2015, the Australian Academy of Science John Booker Medalist in 2017, and the Prime Minister’s Malcolm McIntosh Prize for Physical Scientist of the Year 2017.

Personal Profile

Education Background

2007-2008 PostDoc.  Macquarie University, Sydney, Australia

2003-2007 PhD, Macquarie University, Sydney, Australia

1998–2002, B.S. Liaoning Normal University, Dalian,China

 

Work Experiences

2019-now Chair Professor Department of Biomedical Engineering, Southern University of Science and Technology

2017-2022:University of Technology Sydney,Distinguished Professor, School of Mathematical and Physical Sciences; Director, Institute for Biomedical Materials & Devices (IBMD); Director, ARC Research Hub for Integrated Device for End-user Analysis at Low-levels (IDEAL Hub),

2015-2017 University of Technology Sydney,Professor,School of Mathematical and Physical Sciences; Director, Institute for Biomedical Materials & Devices (IBMD); Director, ARC Research Hub for Integrated Device for End-user Analysis at Low-levels (IDEAL Hub)

2014-2015 Macquarie University,Associate Professor,Australian Research Council Centre for Nanoscale Bio-Photonics chief scientist

2013-2014 Macquarie University, Senior Assistant Professor,Australian Research Council Future Fellowship

2010-2013 Macquarie University, Assistant Professor, ARC Future Fellow, in biophotonics, nanotechnology & medical biotechnology 2009-2010 Macquarie University,Lecturer

2008-2009 Macquarie University, researcher

Research

We use the upconversion luminescent nanocrystals as bio-imaging probe, with controllable surface modification to label the cells, and take advantage of time resolved microscopy and super resolution microscopy for the disease diagnosis.

1、Bio-probe synthesis & design

2、Time-resolved imaging diagnose

3、Super resolution imaging analysis


Publications Read More

2019

1. Wen, S.; Zhou J.; Schuck P.J†.; Suh Y.D†.; Schmidt T†.; Jin, D†, 2019, Future and challenges for hybrid upconversion nanosystems, Nature Photonics, DOI:10.1038/s41566-019-0528-x.

2. Karl Zhanghao, Xingye Chen, Wenhui Liu, Meiqi Li, Yiqiong Liu, Yiming Wang, Sha Luo, Xiao Wang, Chunyan Shan, Hao Xie, Juntao Gao, Xiaowei Chen, Dayong Jin, Xiangdong Li, Yan Zhang, Qionghai Dai, Peng Xi, Super-resolution imaging of fluorescent dipoles via polarized structured illumination microscopy, Nature Communications, DOI: 10.1038/s41467-019-12681-w

3. Gu, Y.; Guo, Z.; Yuan, W.; Kong, M.; Liu, Y.; Liu, Y.; Gao, Y.; Feng, W.; Wang, F.; Zhou, J.; Jin, D†; Li, F. †, 2019, High-sensitivity imaging of time-domain near-infrared light transducer, Nature Photonics, DOI:10.1038/s41566-019-0437-z.

4. Ren, W.; Lin, G.; Clarke, C.; Zhou, J.; Jin, D†, 2019, Optical Nanomaterials and Enabling Technologies for High-Security-Level Anticounterfeiting, Advanced Materials, 10.1002/adma.201901430.

5. Xu, J.; Gulzar, A.; Yang, P.; Bi, H.; Yang, D.; Gai, S.; He, F.; Lin, J.; Xing, B.; Jin, D†, 2019, Recent advances in near-infrared emitting lanthanide-doped nanoconstructs: Mechanism, design and application for bioimaging, Coordination Chemistry Reviews, 381, 104-134.

6. Wei, Y.; Xing, G.; Liu, K.; Li, G.; Dang, P.; Liang, S.; Liu, M.; Cheng, Z.; Jin, D†; Lin, J. †, 2019, New strategy for designing orangish-red-emitting phosphor via oxygen-vacancy-induced electronic localization, Light: Science & Applications, 8, 15.

7. Wang, L.; Cui, D.; Ren, L.; Zhou, J.; Wang, F.; Casillas, G.; Xu, X.; Peleckis, G.; Hao, W.; Ye, J.; Dou, S. X.; Jin, D†; Du, Y. †, 2019, Boosting NIR-driven photocatalytic water splitting by constructing 2D/3D epitaxial heterostructures, Journal of Materials Chemistry A, 7, 13629-13634.

8. Mi, C.; Zhou, J. †; Wang, F.; Jin, D., 2019, Thermally enhanced NIR–NIR anti-Stokes emission in rare earth doped nanocrystals, Nanoscale, 10.1039/C9NR03041G.

9. Ding, B.; Shao, S.; Jiang, F.; Dang, P.; Sun, C.; Huang, S.; Ma, P. a.; Jin, D.; Kheraif, A. A. A.; Lin, J. †, 2019, MnO2-Disguised Upconversion Hybrid Nanocomposite: An Ideal Architecture for Tumor Microenvironment-Triggered UCL/MR Bioimaging and Enhanced Chemodynamic Therapy, Chemistry of Materials, 31, 2651-2660.

10. Zhou, Y.; Chen, Y.; He, H.; Liao, J.; Duong, H. T. T.; Parviz, M. †; Jin, D. †, 2019, A homogeneous DNA assay by recovering inhibited emission of rare earth ions-doped upconversion nanoparticles, Journal of Rare Earths, 37, 11-18.

2018

11. Zhou, J.; Wen, S.; Liao, J.; Clarke, C.; Tawfik, S. A.; Ren, W.; Mi, C.; Wang, F.; Jin, D†, 2018, Activation of the surface dark-layer to enhance upconversion in a thermal field, Nature Photonics, 12, 154-158.

12. Chen, C.; Wang, F.; Wen, S.; Su, Q. P.; Wu, M. C. L.; Liu, Y.; Wang, B.; Li, D.; Shan, X.; Kianinia, M.; Aharonovich, I.; Toth, M.; Jackson, S. P.; Xi, P.; Jin, D†, 2018, Multi-photon near-infrared emission saturation nanoscopy using upconversion nanoparticles, Nature Communications, 9, 3290.

13. Wen, S.; Zhou, J.; Zheng, K.; Bednarkiewicz, A.; Liu, X.; Jin, D†, 2018, Advances in highly doped upconversion nanoparticles, Nature Communications, 9, 2415.

14. Jin, D†; Xi, P.; Wang, B.; Zhang, L.; Enderlein, J.; Van Oijen, A. M., 2018, Nanoparticles for super-resolution microscopy and single-molecule tracking, Nature Methods, 15, 415-423.

15. Wang, F.; Wen, S.; He, H.; Wang, B.; Zhou, Z.; Shimoni, O.; Jin, D. †, 2018, Microscopic inspection and tracking of single upconversion nanoparticles in living cells, Light: Science and Applications, 7.

16. Zhou, J.; Leaño, J. L.; Liu, Z.; Jin, D. †; Wong, K. L. †; Liu, R. S. †; Bünzli, J. C. G. †, 2018, Impact of Lanthanide Nanomaterials on Photonic Devices and Smart Applications, Small, 14.

17. Teng, B.; Han, Y.; Zhang, X.; Xiao, H.; Yu, C.; Li, H.; Cheng, Z.; Jin, D.; Wong, K. L.; Ma, P.; Lin, J., 2018, Phenanthriplatin(iv) conjugated multifunctional up-converting nanoparticles for drug delivery and biomedical imaging, Journal of Materials Chemistry B, 6, 5059-5068.

18. Sun, Y.; Zhang, W.; Wang, B.; Xu, X.; Chou, J.; Shimoni, O.; Ung, A. T.; Jin, D. †, 2018, A supramolecular self-assembly strategy for upconversion nanoparticle bioconjugation, Chemical Communications, 54, 3851-3854.

19. Shang, Y.; Bao, G.; Zhou, J.; Wong, K.; Yang, C.; Jin, D., 2018, Lanthanide-Doped Upconversion Luminescent Materials for Point of Care Diagnosis, Journal of the Chinese Rare Earth Society, 36, 129-146.

20. Ren, W.; Zhou, Y.; Wen, S.; He, H.; Lin, G.; Liu, D.; Jin, D., 2018, DNA-mediated anisotropic silica coating of upconversion nanoparticles, Chemical Communications, 54, 7183-7186.

21. Ren, W.; Wen, S.; Tawfik, S. A.; Su, Q. P.; Lin, G.; Ju, L. A.; Ford, M. J.; Ghodke, H.; Van Oijen, A. M.; Jin, D., 2018, Anisotropic functionalization of upconversion nanoparticles, Chemical Science, 9, 4352-4358.

22. Lin, G.; Baker, M. A. B.; Hong, M.; Jin, D., 2018, The Quest for Optical Multiplexing in Bio-discoveries, Chem, 4, 997-1021.

23. He, H.; Liu, B.; Wen, S.; Liao, J.; Lin, G.; Zhou, J.; Jin, D., 2018, Quantitative Lateral Flow Strip Sensor Using Highly Doped Upconversion Nanoparticles, Analytical Chemistry, 90, 12356-12360.

24. He, H.; Howard, C. B.; Chen, Y.; Wen, S.; Lin, G.; Zhou, J.; Thurecht, K. J.; Jin, D., 2018, Bispecific Antibody-Functionalized Upconversion Nanoprobe, Analytical Chemistry, 90, 3024-3029.

25. Guan, M.; Zhou, Z.; Mei, L.; Zheng, H.; Ren, W.; Wang, L.; Du, Y.; Jin, D.; Zhou, J. †, 2018, Direct cation exchange of surface ligand capped upconversion nanocrystals to produce strong luminescence, Chemical Communications, 54, 9587-9590.

26. Gai, S.; Yang, G.; Yang, P.; He, F.; Lin, J.; Jin, D.; Xing, B., 2018, Recent advances in functional nanomaterials for light–triggered cancer therapy, Nano Today, 19, 146-187.

27. Duong, H. T. T.; Chen, Y.; Tawfik, S. A.; Wen, S.; Parviz, M.; Shimoni, O.; Ab, Jin, D. †, 2018, Systematic investigation of functional ligands for colloidal stable upconversion nanoparticles, RSC Advances, 8, 4842-4849.

28. Clarke, C.; Liu, D.; Wang, F.; Liu, Y.; Chen, C.; Ton-That, C.; Xu, X.; Jin, D. †, 2018, Large-scale dewetting assembly of gold nanoparticles for plasmonic enhanced upconversion nanoparticles, Nanoscale, 10, 6270-6276.

29. Chen, Y.; Duong, H. T. T.; Wen, S.; Mi, C.; Zhou, Y.; Shimoni, O.; Valenzuela, S. M.; Jin, D. †, 2018, Exonuclease III-Assisted Upconversion Resonance Energy Transfer in a Wash-Free Suspension DNA Assay, Analytical Chemistry, 90, 663-668.

30. Bao, G.; Zha, S.; Liu, Z.; Fung, Y. H.; Chan, C. F.; Li, H.; Chu, P. H.; Jin, D.; Tanner, P. A.; Wong, K. L., 2018, Reversible and Sensitive Hg2+Detection by a Cell-Permeable Ytterbium Complex, Inorganic Chemistry, 57, 120-128.

31. Bao, G.; Wong, K. L.; Jin, D.; Tanner, P. A., 2018, A stoichiometric terbium-europium dyad molecular thermometer: energy transfer properties, Light: Science and Applications, 7.

2017

32. Liu, Y.; Lu, Y.; Yang, X.; Zheng, X.; Wen, S.; Wang, F.; Vidal, X.; Zhao, J.; Liu, D.; Zhou, Z.; Ma, C.; Zhou, J.; Piper, J. A.; Xi, P.; Jin D†, 2017, Amplified stimulated emission in upconversion nanoparticles for super-resolution nanoscopy, Nature, 543, 229-233.

33. Ma, C.; Xu, X.; Wang, F.; Zhou, Z.; Liu, D.; Zhao, J.; Guan, M.; Lang, C. I.; Jin, D. †, 2017, Optimal Sensitizer Concentration in Single Upconversion Nanocrystals, Nano Letters, 17, 2858-2864.

34. Zou, R.; Huang, J.; Shi, J.; Huang, L.; Zhang, X.; Wong, K. L.; Zhang, H.; Jin, D.; Wang, J.; Su, Q., 2017, Silica shell-assisted synthetic route for mono-disperse persistent nanophosphors with enhanced in vivo recharged near-infrared persistent luminescence, Nano Research, 10, 2070-2082.

35. Xu, X.; Clarke, C.; Ma, C.; Casillas, G.; Das, M.; Guan, M.; Liu, D.; Wang, L.; Tadich, A.; Du, Y.; Ton-That, C.; Jin, D. †, 2017, Depth-profiling of Yb3+sensitizer ions in NaYF4 upconversion nanoparticles, Nanoscale, 9, 7719-7726.

36. Xie, J.; Xie, X.; Mi, C.; Gao, Z.; Pan, Y.; Fan, Q.; Su, H.; Jin, D.; Huang, L.; Huang, W., 2017, Controlled Synthesis, Evolution Mechanisms, and Luminescent Properties of ScFx:Ln (x = 2.76, 3) Nanocrystals, Chemistry of Materials, 29, 9758-9766.

37. Teng, B.; Ma, P.; Yu, C.; Zhang, X.; Feng, Q.; Wen, L.; Li, C.; Cheng, Z.; Jin, D.; Lin, J., 2017, Upconversion nanoparticles loaded with eIF4E siRNA and platinum(IV) prodrug to sensitize platinum based chemotherapy for laryngeal cancer and bioimaging, Journal of Materials Chemistry B, 5, 307-317.

38. Marciniak, L.; Pilch, A.; Arabasz, S.; Jin, D.; Bednarkiewicz, A., 2017, Heterogeneously Nd3+doped single nanoparticles for NIR-induced heat conversion, luminescence, and thermometry, Nanoscale, 9, 8288-8297.

39. Fu, L.; Morsch, M.; Shi, B.; Wang, G.; Lee, A.; Radford, R.; Lu, Y.; Jin, D.; Chung, R., 2017, A versatile upconversion surface evaluation platform for bio-nano surface selection for the nervous system, Nanoscale, 9, 13683-13692.

40. Deng, K.; Li, C.; Huang, S.; Xing, B.; Jin, D.; Zeng, Q.; Hou, Z.; Lin, J., 2017, Recent Progress in Near Infrared Light Triggered Photodynamic Therapy, Small, 13.

2016

41. Liu, D.; Xu, X.; Du, Y.; Qin, X.; Zhang, Y.; Ma, C.; Wen, S.; Ren, W.; Goldys, E. M.; Piper, J. A.; Dou, S.; Liu, X.; Jin, D. †, 2016, Three-dimensional controlled growth of monodisperse sub-50 nm heterogeneous nanocrystals, Nature Communications, 7.

42. Zheng, X.; Zhu, X.; Lu, Y.; Zhao, J.; Feng, W.; Jia, G.; Wang, F.; Li, F.; Jin, D. †, 2016, High-Contrast Visualization of Upconversion Luminescence in Mice Using Time-Gating Approach, Analytical Chemistry, 88, 3449-3454.

43. Zheng, X.; Lu, Y.; Zhao, J.; Zhang, Y.; Ren, W.; Liu, D.; Lu, J.; Piper, J. A.; Leif, R. C.; Liu, X.; Jin, D. †, 2016, High-Precision Pinpointing of Luminescent Targets in Encoder-Assisted Scanning Microscopy Allowing High-Speed Quantitative Analysis, Analytical Chemistry, 88, 1312-1319.

44. Zhao, J.; Zheng, X.; Schartner, E. P.; Ionescu, P.; Zhang, R.; Nguyen, T. L.; Jin, D.; Ebendorff-Heidepriem, H., 2016, Upconversion Nanocrystal-Doped Glass: A New Paradigm for Photonic Materials, Advanced Optical Materials, 4, 1507-1517.

45. Sayyadi, N.; Justiniano, I.; Connally, R. E.; Zhang, R.; Shi, B.; Kautto, L.; Everest-Dass, A. V.; Yuan, J.; Walsh, B. J.; Jin, D.; Willows, R. D.; Piper, J. A.; Packer, N. H., 2016, Sensitive Time-Gated Immunoluminescence Detection of Prostate Cancer Cells Using a TEGylated Europium Ligand, Analytical Chemistry, 88, 9564-9571.

46. Ma, C.; Xu, X.; Wang, F.; Zhou, Z.; Wen, S.; Liu, D.; Fang, J.; Lang, C. I.; Jin, D. †, 2016, Probing the Interior Crystal Quality in the Development of More Efficient and Smaller Upconversion Nanoparticles, Journal of Physical Chemistry Letters, 7, 3252-3258.

47. Liu, D.; Xu, X.; Wang, F.; Zhou, J.; Mi, C.; Zhang, L.; Lu, Y.; Ma, C.; Goldys, E.; Lin, J.; Jin, D. †, 2016, Emission stability and reversibility of upconversion nanocrystals, Journal of Materials Chemistry C, 4, 9227-9234.

48. Liu, B.; Li, C.; Xie, Z.; Hou, Z.; Cheng, Z.; Jin, D.; Lin, J., 2016, 808 nm photocontrolled UCL imaging guided chemo/photothermal synergistic therapy with single UCNPs-CuS@PAA nanocomposite, Dalton Transactions, 45, 13061-13069.

49. Hou, Z.; Deng, K.; Li, C.; Deng, X.; Lian, H.; Cheng, Z.; Jin, D.; Lin, J., 2016, 808 nm Light-triggered and hyaluronic acid-targeted dual-photosensitizers nanoplatform by fully utilizing Nd3+-sensitized upconversion emission with enhanced anti-tumor efficacy, Biomaterials, 101, 32-46.

50. He, F.; Li, C.; Zhang, X.; Chen, Y.; Deng, X.; Liu, B.; Hou, Z.; Huang, S.; Jin, D.; Lin, J., 2016, Optimization of upconversion luminescence of Nd3+-sensitized BaGdF5-based nanostructures and their application in dual-modality imaging and drug delivery, Dalton Transactions, 45, 1708-1716.

2015

51. Zhou, B.; Shi, B.; Jin, D. †; Liu, X. †, 2015, Controlling upconversion nanocrystals for emerging applications, Nature Nanotechnology, 10, 924-936.

52. Yang, M.; Liang, Y.; Gui, Q.; Zhao, B.; Jin, D.; Lin, M.; Yan, L.; You, H.; Dai, L.; Liu, Y., 2015, Multifunctional luminescent nanomaterials from NaLa(MoO 4) 2:Eu 3+ /Tb 3+ with tunable decay lifetimes, emission colors, and enhanced cell viability, Scientific Reports, 5.

53. Song, B.; Ye, Z.; Yang, Y.; Ma, H.; Zheng, X.; Jin, D.; Yuan, J., 2015, Background-free in-vivo imaging of Vitamin C using time-gateable responsive probe, Scientific Reports, 5.

54. Lu, J.; Chen, Y.; Liu, D.; Ren, W.; Lu, Y.; Shi, Y.; Piper, J.; Paulsen, I.; Jin, D., 2015, One-Step Protein Conjugation to Upconversion Nanoparticles, Analytical Chemistry, 87, 10406-10413.

2014

55. Lu, Y.; Zhao, J.; Zhang, R.; Liu, Y.; Liu, D.; Goldys, E. M.; Yang, X.; Xi, P.; Sunna, A.; Lu, J.; Shi, Y.; Leif, R. C.; Huo, Y.; Shen, J.; Piper, J. A.; Robinson, J. P.; Jin, D. †, 2014, Tunable lifetime multiplexing using luminescent nanocrystals, Nature Photonics, 8, 32-36.

56. Lu, Y.; Lu, J.; Zhao, J.; Cusido, J.; Raymo, F. M.; Yuan, J.; Yang, S.; Leif, R. C.; Huo, Y.; Piper, J. A.; Paul Robinson, J.; Goldys, E. M.; Jin, D. †, 2014, On-the-fly decoding luminescence lifetimes in the microsecond region for lanthanide-encoded suspension arrays, Nature Communications, 5.

57. Zhang, Y.; Zhang, L.; Deng, R.; Tian, J.; Zong, Y.; Jin, D.; Liu, X. †, 2014, Multicolor barcoding in a single upconversion crystal, Journal of the American Chemical Society, 136, 4893-4896.

58. Zhang, L.; Zheng, X.; Deng, W.; Lu, Y.; Lechevallier, S.; Ye, Z.; Goldys, E. M.; Dawes, J. M.; Piper, J. A.; Yuan, J.; Verelst, M.; Jin, D. †, 2014, Practical implementation, characterization and applications of a multi-colour time-gated luminescence microscope, Scientific Reports, 4.

59. Ye, Z.; Zhang, R.; Song, B.; Dai, Z.; Jin, D.; Goldys, E. M.; Yuan, J., 2014, Development of a functional ruthenium(II) complex for probing hypochlorous acid in living cells, Dalton Transactions, 43, 8414-8420.

60. Zhao, J.; Lu, Z.; Yin, Y.; McRae, C.; Piper, J. A.; Dawes, J. M.; Jin, D. †; Goldys, E. M., 2013, Upconversion luminescence with tunable lifetime in NaYF4:Yb,Er nanocrystals: Role of nanocrystal size, Nanoscale, 5, 944-952.

2013

61. Zhao, J.; Jin, D. †; Schartner, E. P.; Lu, Y.; Liu, Y.; Zvyagin, A. V.; Zhang, L.; Dawes, J. M.; Xi, P.; Piper, J. A.; Goldys, E. M.; Monro, T. M., 2013, Single-nanocrystal sensitivity achieved by enhanced upconversion luminescence, Nature Nanotechnology, 8, 729-734.

62. Zhang, L.; McKay, A.; Jin, D. †, 2013, High-throughput 3-dimensional time-resolved spectroscopy: Simultaneous characterisation of luminescence properties in spectral and temporal domains, RSC Advances, 3, 8670-8673.

63. Song, Z.; Anissimov, Y. G.; Zhao, J.; Nechaev, A. V.; Nadort, A.; Jin, D.; Prow, T. W.; Roberts, M. S.; Zvyagin, A. V., 2013, Background free imaging of upconversion nanoparticle distribution in human skin, BIOMEDO, 18.

64. Zhang, W.; Zhang, R.; Zhang, J.; Ye, Z.; Jin, D.; Yuan, J., 2012, Photoluminescent and electrochemiluminescent dual-signaling probe for bio-thiols based on a ruthenium(II) complex, Analytica Chimica Acta, 740, 80-87.

65. Zhang, R.; Ye, Z.; Yin, Y.; Wang, G.; Jin, D.; Yuan, J.; Piper, J. A., 2012, Developing red-emissive ruthenium(II) complex-based luminescent probes for cellular imaging, Bioconjugate Chemistry, 23, 725-733.

66. Zhang, L.; Wang, Y.; Ye, Z.; Jin, D.; Yuan, J., 2012, New class of tetradentate β-diketonate-europium complexes that can be covalently bound to proteins for time-gated fluorometric application, Bioconjugate Chemistry, 23, 1244-1251.

67. Tian, L.; Dai, Z.; Zhang, L.; Zhang, R.; Ye, Z.; Wu, J.; Jin, D.; Yuan, J., 2012, Preparation and time-gated luminescence bioimaging applications of long wavelength-excited silica-encapsulated europium nanoparticles, Nanoscale, 4, 3551-3557.

68. Schartner, E. P.; Jin, D.; Ebendorff-Heidepriem, H.; Piper, J. A.; Lu, Z.; Monro, T. M., 2012, Lanthanide upconversion within microstructured optical fibers: Improved detection limits for sensing and the demonstration of a new tool for nanocrystal characterization, Nanoscale, 4, 7448-7451.

69. Lu, Y.; Xi, P.; Piper, J. A.; Huo, Y.; Jin, D. †, 2012, Time-gated orthogonal scanning automated microscopy (OSAM) for high-speed cell detection and analysis, Scientific Reports, 2.

70. Lu, J.; Martin, J.; Lu, Y.; Zhao, J.; Yuan, J.; Ostrowski, M.; Paulsen, I.; Piper, J. A.; Jin, D. †, 2012, Resolving low-expression cell surface antigens by time-gated orthogonal scanning automated microscopy, Analytical Chemistry, 84, 9674-9678.

71. Calander, N.; Jin, D.; Goldys, E. M., 2012, Taking plasmonic core-shell nanoparticles toward laser threshold, Journal of Physical Chemistry C, 116, 7546-7551.

72. Lu, Y.; Jin, D.; Leif, R. C.; Deng, W.; Piper, J. A.; Yuan, J.; Duan, Y.; Huo, Y., 2011, Automated detection of rare-event pathogens through time-gated luminescence scanning microscopy, Cytometry Part A, 79 A, 349-355.

73. Jin, D. †; Piper, J. A., 2011, Time-gated luminescence microscopy allowing direct visual inspection of lanthanide-stained microorganisms in background-free condition, Analytical Chemistry, 83, 2294-2300.

74. Jin, D. †, 2011, Demonstration of true-color high-contrast microorganism imaging for terbium bioprobes, Cytometry Part A, 79 A, 392-397.

75. Deng, W.; Sudheendra, L.; Zhao, J.; Fu, J.; Jin, D.; Kennedy, I. M.; Goldys, E. M., 2011, Upconversion in NaYF4:Yb, Er nanoparticles amplified by metal nanostructures, Nanotechnology, 22.

76. Deng, W.; Jin, D. †; Drozdowicz-Tomsia, K.; Yuan, J.; Wu, J.; Goldys, E. M., 2011, Ultrabright Eu-doped plasmonic Ag@SiO2 nanostructures: Time-gated bioprobes with single particle sensitivity and negligible background, Advanced Materials, 23, 4649-4654.

77. Jiang, L.; Wu, J.; Guilan, W.; Ye, Z.; Zhang, W.; Jin, D.; Yuan, J.; Piper, J., 2010, Development of a visible-light-sensitized europium complex for time-resolved fluorometric application, Analytical Chemistry, 82, 2529-2535.

78. Jiang, H.; Wang, G.; Zhang, W.; Liu, X.; Ye, Z.; Jin, D.; Yuan, J.; Liu, Z., 2010, Preparation and time-resolved luminescence bioassay application of multicolor luminescent lanthanide nanoparticles, Journal of Fluorescence, 20, 321-328.

79. Deng, W.; Jin, D.; Drozdowicz-Tomsia, K.; Yuan, J.; Goldys, E. M., 2010, Europium chelate (BHHCT-Eu3+) and its metal nanostructure enhanced luminescence applied to bioassays and time-gated bioimaging, Langmuir, 26, 10036-10043.

80. Wu, J.; Ye, Z.; Wang, G.; Jin, D.; Yuan, J.; Guan, Y.; Piper, J., 2009, Visible-light-sensitized highly luminescent europium nanoparticles: Preparation and application for time-gated luminescence bioimaging, Journal of Materials Chemistry, 19, 1258-1264.

81. Song, C.; Ye, Z.; Wang, G.; Jin, D.; Yuan, J.; Guan, Y.; Piper, J., 2009, Preparation and time-gated luminescence bioimaging application of ruthenium complex covalently bound silica nanoparticles, Talanta, 79, 103-108.

82. Leif, R. C.; Yang, S.; Jin, D.; Piper, J.; Vallarino, L. M.; Williams, J. W.; Zucker, R. M., 2009, Calibration beads containing luminescent lanthanide ion complexes, BIOMEDO, 14.

83. Jin, D. †; Piper, J. A.; Leif, R. C.; Yang, S.; Ferrari, B. C.; Yuan, J.; Wang, G.; Vallarino, L. M.; Williams, J. W., 2009, Time-gated flow cytometry: An ultra-high selectivity method to recover ultra-rare-event μ-targets in high-background biosamples, BIOMEDO, 14.

84. Deng, W.; Drozdowicz-Tomsia, K.; Jin, D.; Goldys, E. M., 2009, Enhanced flow cytometry-based bead immunoassays using metal nanostructures, Analytical Chemistry, 81, 7248-7255.

85. Wu, J.; Wang, G.; Jin, D.; Yuan, J.; Guan, Y.; Piper, J., 2008, Luminescent europium nanoparticles with a wide excitation range from UV to visible light for biolabeling and time-gated luminescence bioimaging, Chemical Communications, 365-367.

86. Jin, D. †; Connally, R.; Piper, J., 2007, Practical time-gated luminescence flow cytometry. I: Concepts, Cytometry Part A, 71, 783-796.

87. Jin, D. †; Connally, R.; Piper, J., 2007, Practical time-gated luminescence flow cytometry. II: Experimental evaluation using UV LED excitation, Cytometry Part A, 71, 797-808.

88. Jin, D. †; Connally, R.; Piper, J., 2006, Long-lived visible luminescence of UV LEDs and impact on LED excited time-resolved fluorescence applications, Journal of Physics D: Applied Physics, 39, 461-465.

89. Connally, R.; Jin, D. †; Piper, J., 2006, High intensity solid-state UV source for time-gated luminescence microscopy, Cytometry Part A, 69, 1020-1027.

90. Bao, G.; Jin, D., 2019, Nanoparticles give mice infrared vision, Nature Photonics, 13, 304-305.

91. Zhou, J.; Jin, D., 2018, Triplet state brightens upconversion, Nature Photonics, 12, 378-379.

92. Lin, G.; Jin, D., 2018, Taking upconversion to lase in microcavity, Nature Nanotechnology, 13, 534-536.

93. Jin, D., 2016, View from. UPCON 2016: Bright future for upconversion, Nature Photonics, 10, 567-569.

News More

  • Australian State Governor visits SUSTech, oversees MOU signing

    https://newshub.sustech.edu.cn/html/201908/15799.html

    2019-10-31

Lab members Read More

Join us

Contact Us

Contact Address

Office Phone

Email

jindy@sustech.edu.cn

Copyright © 2018 All Rights Reserved.