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see our full citation here<\/a><\/p>\n

\n

40. “Synthesis of Homogeneous Gold Nanorods through Optimized Multi-step Seed-mediated Growth Method<\/strong><\/a>“, Zhang, X.; Tran, N.; Egan, T.; Sharma, B.; Chen, G.<\/strong>, J. Phys. Chem. C <\/strong><\/em>2021, 125,<\/em> 13350.<\/p>\n

39. “Radiative Decay Rate Enhancement and Quenching for Multiple Emitters Near a Metal Nanoparticle Surface<\/a>“, Zhou, Y.; Chen, G.<\/strong>; Zou, S., J. Phys. Chem. C<\/strong> <\/em>2021, 125<\/em>, 2531.<\/p>\n

38. “Ultrasensitive Visual Detection of Glucose in Urine Based on the Iodide-Promoted Etching of Gold Bipyramids<\/a>“, Zhang, X.; Sucre-Rosales, E.; Byram, A.; Hernandez, F. E.; Chen, G.<\/strong>, ACS Appl. Mater. Interfaces <\/em><\/strong>2020, 12<\/em>, 49502.<\/p>\n

37. “pH-mediated Synthesis of Monodisperse Gold Nanorods with Quantitative Yield and Molecular Level Insight<\/a>“, Gallagher, R.; Zhang, X.; Altomare, A.; Lawrence, D. Jr.; Shawver, N.; Tran, N.; Beazley, M.; Chen, G.<\/strong>, Nano<\/em> Research <\/em><\/strong>2021, 14<\/em>, 1167. Cover Feature<\/strong><\/a>.<\/p>\n

36. “pH Regulated Synthesis of Monodisperse Penta-twinned Gold Nanoparticles with High Yield<\/a>“, Zhang, X.; Gallagher, R.; He, D.; Chen, G.<\/strong>, Chem. Mater.<\/em><\/strong> 2020, 32<\/em>, 5626. Highlighted as Cover<\/strong><\/a>.<\/span><\/p>\n

35. “Branched kissing loops for the construction of diverse RNA homooligomeric nanostructures<\/a>“, Liu, D.; Geary, C. W.; Chen, G.<\/strong>; Shao, Y.; Li, M.; Mao, C.; Anderson, E. S.; Piccirilli, J. A.; Rothemund, P. W. K.; Weizmann, Y., Nat. Chem.<\/em>\u00a0<\/strong>2020, 12<\/em>, 249.<\/p>\n

34. “Regioselective Surface Encoding of Nanoparticles for Programmable Self-Assembly<\/a>“,\u00a0Chen, G.<\/strong>; Gibson, K.; Liu, D.; Rees, H. C.; Lee, J. H.; Xia, W. W.; Lin, R. Q.; Xin, H. L.; Gang, O.; Weizmann, Y.,\u00a0Nat. Mater.<\/strong>\u00a0<\/em>2019,\u00a018<\/em>, 169.<\/p>\n

33. “Construction of Long Narrow Gaps in Ag Nanoplates<\/a>“, Jiang, T.; Chen, G.<\/strong>; Tang, S. W.; Zhou, J.; Feng, Y. H.; Chen, H. Y., J.\u00a0Am. Chem. Soc.<\/em><\/strong>\u00a0<\/em><\/strong>2018,<\/strong>\u00a0140, <\/em>15560.<\/p>\n

32. “Ambient Electrochemical Ammonia Synthesis with High Selectivity on Fe\/Fe3O4 Catalyst<\/a>“, Hu, L.; Khaniya, A.; Wang, J.; Chen, G.<\/strong>; Kaden, W. E.; Feng, X. F., ACS Catalysis<\/strong><\/em>\u00a0<\/em><\/strong>2018,<\/strong>\u00a08<\/em>, 9312.<\/p>\n

31. “Ambient ammonia synthesis via palladium-catalyzed electrohydrogenation of dinitrogen at low overpotential<\/a>“, Wang, J.; Yu, L.; Hu, L.;\u00a0Chen, G.<\/strong>; Xin, H. L.; Feng, X. F., Nat.<\/em>\u00a0Commun. <\/em><\/strong>2018,<\/strong> 9<\/em>, 1795.<\/p>\n

30. “Mo0.42C0.58 Nanoparticles Embedded in Nitrogen\u2010Doped Carbon as Electrocatalyst towards Oxygen Reduction Reaction<\/a>“, Wang, H. R.; Yu, Y.; Wei, J. T.;\u00a0Yu, X. D.;\u00a0Chen, G.<\/strong>; Ma, J. C.; Xing, S. X., ChemistrySelect\u00a0<\/em><\/strong>2018,<\/strong> 3<\/em>, 5106.<\/p>\n

29. “Dual Role of Polyaniline for Achieving Ag Dendrites and Enhancing Its Oxygen Reduction Reaction Catalytic Activity<\/a>“, Zhang, L.; Liu, X. C.; Wang, Y. H.;\u00a0Chen, G.<\/strong>; Xing, S. X., ChemistrySelect\u00a0<\/em><\/strong>2017,<\/strong> 2<\/em>, 10300.<\/p>\n

28. “Synthesizing topological structures containing RNA<\/a>“, Liu, D.; Shao, Y. M.;\u00a0Chen, G.<\/strong>; Tse-Dinh, Y. C.; Piccirilli, J. A.; Weizmann, Y., Nat.<\/em>\u00a0Commun. <\/em><\/strong>2017,<\/strong> 8<\/em>, 14936.<\/p>\n

27. “Creating Complex Molecular Topologies by Configuring DNA Four-Way Junctions<\/a>“, Liu, D.;\u00a0Chen, G.<\/strong>; Akhter U.; Cronin, T. M.; Weizmann, Y., Nat. Chem.<\/em>\u00a0<\/strong>2016, 8<\/em>, 907-914. Highlighted as\u00a0Front Cover<\/strong><\/a><\/span>.<\/p>\n

 <\/p>\n

Before Joining UCF<\/strong><\/p>\n

26. “Bipyramid-Templated Synthesis of Monodisperse Anisotropic Gold Nanocrystals<\/a>“, Lee, J.-H.; Gibson, K. J.; Chen, G.<\/strong>; Weizmann, Y., Nat.<\/em>\u00a0Commun. <\/em><\/strong>2015,<\/strong> 6<\/em>, 7571.<\/p>\n

25. “Enzymatic Synthesis of Periodic DNA Nanoribbons for Intracellular pH Sensing and Gene Silencing<\/a>“, Chen, G.<\/strong>; Liu, D.; He, C. B.; Gannett, T. R.; Lin, W. B.; Weizmann, Y., J.\u00a0Am. Chem. Soc.<\/strong>\u00a0<\/em>2015, 137<\/em> (11), 3844-3851. Highlighted as ACS\u00a0Spotlights<\/strong><\/a><\/span> and Front Cover<\/strong><\/a><\/span>.<\/p>\n

24. “Chiral Transformation: from Single Nanowire to Double Helix<\/a>“, Wang, Y.; Wang, Q. X.; Sun, H.; Zhang, W.Q.; Chen, G.<\/strong>; Wang, Y. W.; Shen, X. S.; Han, Y.; Lu, X. M.; Chen, H. Y., J.\u00a0Am. Chem. Soc. <\/em><\/strong>2011, 133<\/em> (50), 20060-20063.<\/p>\n

23. “Toroidal Micelles of Polystyrene-block-Poly(acrylic acid)<\/a>“, Liu, C.; Chen, G.<\/strong>; Sun, H.; Xu, J.; Feng, Y. H.; Zhang, Z.; Wu, T.; Chen, H. Y., Small <\/em><\/strong>2011, 7<\/em> (19), 2721-2726.<\/p>\n

22. “Measuring Ensemble-Averaged Surface-Enhanced Raman Scattering in the Hotspots of Colloidal Nanoparticle Dimers and Trimers<\/a>“, Chen, G.<\/strong>; Wang, Y.; Yang, M. X.; Xu, J.; Goh, S. J.; Pan, M.; Chen, H. Y., J.\u00a0Am. Chem. Soc. <\/em><\/strong>2010,<\/strong> 132<\/em> (11), 3644-3645.<\/p>\n

21. “A Systems Approach towards the Stoichiometry-Controlled Hetero-Assembly of Nanoparticles<\/a>“, Wang, Y.; Chen, G.<\/strong>; Yang, M. X.; Silber, G.; Xing, S. X.; Tan, L. H.; Wang, F.; Feng, Y. H.; Liu, X. G.; Li, S. Z.; Chen, H. Y., Nat.<\/em>\u00a0Commun. <\/em><\/strong>2010,<\/strong> 1<\/em>, 87.<\/p>\n

20. “Scalable Routes to Janus Au-SiO2 and Ternary Ag-Au-SiO2 Nanoparticles<\/a>“, Chen, T.; Chen, G.<\/strong>; Xing, S. X.; Wu, T.; Chen, H. Y., Chem.\u00a0Mater. <\/em><\/strong>2010,<\/strong> 22<\/em> (13), 3826-3828.<\/p>\n

19. “Mechanistic Investigation into the Spontaneous Linear Assembly of Gold Nanospheres<\/a>“, Yang, M. X.; Chen, G.<\/strong>; Zhao, Y. F.; Silber, G.; Wang, Y.; Xing, S. X.; Han, Y.; Chen, H. Y., PCCP <\/em><\/strong>2010,<\/strong> 12<\/em> (38), 11850-11860.<\/p>\n

18. “Hotspot-Induced Transformation of Surface-Enhanced Raman Scattering Fingerprints<\/a>“, Chen, T.; Wang, H.; Chen, G.<\/strong>; Wang, Y.; Feng, Y. H.; Teo, W. S.; Wu, T.; Chen, H. Y., ACS Nano <\/em><\/strong>2010,<\/strong> 4<\/em> (6), 3087-3094.<\/p>\n

17. “High-Purity Separation of Gold Nanoparticle Dimers and Trimers<\/a>“, Chen, G.<\/strong>; Wang, Y.; Tan, L. H.; Yang, M. X.; Tan, L. S.; Chen, Y.; Chen, H. Y., J.\u00a0Am. Chem. Soc.<\/em><\/strong>\u00a0<\/em>2009,<\/strong> 131<\/em> (12), 4218-4219.<\/p>\n

16. “Fabrication of Polymer Nanocavities with Tailored Openings<\/a>“, Tan, L. H.; Xing, S. X.; Chen, T.; Chen, G.<\/strong>; Huang, X.; Zhang, H.; Chen, H. Y., ACS Nano <\/em><\/strong>2009,<\/strong> 3<\/em> (11), 3469-3474.<\/p>\n

15. “Fabrication of Hydrophobic Fluorinated Amorphous Carbon Thin Films by an Electrochemical Route<\/a>“, Chen, G.<\/strong>; Zhang, J. Y.; Yang, S. R., Electrochem.\u00a0Commun. <\/em><\/strong>2008,<\/strong> 10<\/em> (1), 7-11.<\/p>\n

14. “Synthesis of C-60 Nanoparticle Doped Hard Carbon Film by Electrodeposition<\/a>“, Hu, H. Y.; Chen, G.<\/strong>; Zhang, J. Y., Carbon <\/em><\/strong>2008,<\/strong> 46<\/em> (7), 1095-1097.<\/p>\n

13. “Facile Synthesis of CNTs-Doped Diamond-Like Carbon Film by Electrodeposition<\/a>“, Hu, H. Y.; Chen, G.<\/strong>; Zha, J. Y., Surf.\u00a0<\/strong>Coat. Technol.<\/strong> <\/em>2008,<\/strong> 202<\/em> (24), 5943-5946.<\/p>\n

12. “Synthesis and Characterization of High Voltage Electrodeposited Phosphorus Doped DLC Films<\/a>“, Wan, S. H.; Hu, H. Y.; Chen, G.<\/strong>; Zhang, J. Y.,\u00a0Electrochem.\u00a0Commun.<\/em><\/strong>\u00a0<\/em>2008,<\/strong> 10<\/em> (3), 461-465.<\/p>\n

11. “A novel method for the synthesis of Au nanoparticles incorporated amorphous hydrogenated carbon films<\/a>“, Chen, G.<\/strong>; Zhang, J. Y.; Yang, S. R.,\u00a0Electrochem.\u00a0Commun.<\/em><\/strong>\u00a0<\/em>2007,<\/strong> 9<\/em> (5), 1053-1056.<\/p>\n

10. “Synthesis of silicon carbide nitride nanocomposite films by a simple electrochemical method<\/a>“, Yan, X. B.; Tay, B. K.; Chen, G.<\/strong>; Yang, S. R.,\u00a0Electrochem.\u00a0Commun.<\/em><\/strong>\u00a0<\/em>2006,<\/strong> 8<\/em> (5), 737-740.<\/p>\n

9. “Preparation and characterization of amorphous hydrogenated carbon films containing Au nanoparticles from heat-treatment of polymer precursors<\/a>“, Yan, X. B.; Xu, T.; Chen, G.<\/strong>; Wang, X. B.; Liu, H. W.; Yang, S. R., Appl. Phys. A <\/em><\/strong>\u00a0<\/em>2005,<\/strong> 81<\/em> (1), 197-203.<\/p>\n

8. “Field-emission properties of diamond-like-carbon and nitrogen-doped diamond-like-carbon films prepared by electrochemical deposition<\/a>“, Yan, X.; Xu, T.; Chen, G.<\/strong>; Xu, S.; Yang, S., Appl. Phys. A<\/em><\/strong>\u00a0<\/em>2005,<\/strong> 81<\/em> (1), 41-46.<\/p>\n

7. “Polymer-assisted synthesis of aligned amorphous silicon nanowires and their core\/shell structures with Au nanoparticles<\/a>“, Yan, X. B.; Xu, T.; Xu, S.; Chen, G.<\/strong>; Xue, Q. J.; Yang, S. R., Chem.\u00a0Phys. Lett. <\/em><\/strong>2004,<\/strong> 397<\/em> (1-3), 128-132.<\/p>\n

6. “Fabrication of carbon spheres on a-C : H films by heat-treatment of a polymer precursor<\/a>“, Yan, X. B.; Xu, T.; Xu, S.; Chen, G.<\/strong>; Liu, H. W.; Yang, S. R., Carbon <\/em><\/strong>2004,<\/strong> 42<\/em> (12-13), 2769-2771.<\/p>\n

5. “Fabrication of oriented FePt nanoparticles embedded in a carbon film made by pyrolysis of poly(phenylcarbyne)<\/a>“, Yan, X. B.; Xu, T.; Xu, S.; Chen, G.<\/strong>; Liu, H. W.; Yang, S. R., Carbon <\/em><\/strong>2004,<\/strong> 42<\/em> (14), 3021-3024.<\/p>\n

4. “Preparation and characterization of electrochemically deposited carbon nitride films on silicon substrate<\/a>“, Yan, X. B.; Xu, T.; Chen, G.<\/strong>; Yang, S. R.; Liu, H. W.; Xue, Q. J., J.\u00a0Phys. D: Appl. Phys. <\/em><\/strong>2004,<\/strong> 37<\/em> (6), 907-913.<\/p>\n

3. “Study of structure, tribological properties and growth mechanism of DLC and nitrogen-doped DLC films deposited by electrochemical techniqu<\/a>e”, Yan, X. B.; Xu, T.; Chen, G.<\/strong>; Yang, S. R.; Liu, H. W., Appl.\u00a0Surf. Sci. <\/em><\/strong>2004,<\/strong> 236<\/em> (1-4), 328-335.<\/p>\n

2. “Synthesis of diamond-like carbon\/nano silica composite films by an electrochemical method<\/a>“, Yan, X. B.; Xu, T.; Chen, G.<\/strong>; Xue, Q. J.; Yang, S. R., Electrochem.\u00a0Commun.<\/em><\/strong>\u00a0<\/em>2004,<\/strong> 6<\/em> (11), 1159-1162.<\/p>\n

1.”Effect of deposition voltage on the microstructure of electrochemically deposited hydrogenated amorphous carbon films<\/a>“, Yan, X. B.; Xu, T.; Chen, G.<\/strong>; Liu, H. W.; Yang, S. R., Carbon <\/em><\/strong>2004,<\/strong> 42<\/em> (15), 3103-3108.<\/p>\n","protected":false},"excerpt":{"rendered":"

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