Papers in Peer-Reviewed Journals
204 total, 179 from our independent research since 2002: [26]-[212] publications are from Western University, [18]-[25] are contributions as a postdoctoral research associate at the University of Texas at Austin, [5]-[17] are papers from graduate research work at EPFL, and [1]-[4] are research work in China, published in English.
Students and postdocs are indicated in bold, "=" indicates coauthorship.
[204] P. Hu=, C. Zhang=, M. Chu=, X. Wang=, L. Wang, Y. Li, T. Yan, L. Zhang, Z. Ding, M. Cao, P. Xu, Y. Li, Y. Cui, Q. Zhang, J. Chen, L. Chi, Stable Interfacial Ruthenium Species for Highly Efficient Polyolefin Upcycling, J. Am. Chem. Soc. 146 (2024). DOI: doi.org/10.1021/jacs.4c00757.
[203] C. Zhang=, R. Zhang=, R. Zhang, Q. Zhang, J.L. Zhang, Z. Ding, Spectroscopy and absolute quantum efficiency of near-infrared electrochemiluminescence for a macrocyclic palladium complex, J. Inorg. Biochem. 254 (2024) 112514. DOI: doi.org/10.1016/j.jinorgbio.2024.112514.
[202] X. Qin=, S. Jahanghiri=, Z. Zhan=, K. Chu, J. Khangura, Z. Ding, Quantification strategy of absolute chemiluminescence efficiency for systems of luminol with hydrogen peroxide, Anal. Chim. Acta 1285 (2024) 342023. DOI: 10.1016/j.aca.2023.342023.
[201] Q. Wu, X. Wang, S. Hao, Y. Wu, W. Zhang, L. Chen, C. Yan, Y. Lu, Y. Chen, Z. Ding, Synergetic effects and inhibition mechanisms of the polysaccharide-selenium nanoparticle complex on human hepatocarcinoma cells proliferation, J. Sci. Food Agric. (2024). DOI: doi.org/10.1002/jsfa.13335.
[200] D. Wang, J. Wang, Y. Wu, C. Liu, Y. Huang, Y. Chen, Z. Ding, Y. Guan, Q. Wu, Amelioration of Acute Alcoholic Liver Injury via Attenuating Oxidative Damage and Modulating Inflammation by Means of Ursodeoxycholic Acid–Zein Nanoparticles, J. Agric. Food. Chem 71 (2023) 17080–17096. DOI: doi.org/10.1021/acs.jafc.3c04786.
[199] Y. Liu, C. Zhang, J. Feng, X. Wang, Z. Ding, L. He, Q. Zhang, J. Chen, Y. Yin, Integrated Photochromic-Photothermal Processes for Catalytic Plastic Upcycling, Angew. Chem. Int. Ed. 62 (2023) e202308930. DOI: doi.org/10.1002/anie.202308930.
[198] Y. Jin=, J. Yuan=, C. Liu, J. Sun, Y. Liu, Z. Ding, Q. Wu, Immobilization and characterization of the Lactarius deliciosus mycelia-embedded polylysine-alginate beads and their decolorization performance, Front. Chem. Sci. Eng. (2023). DOI: 10.1007/s11705-023-2341-9.
[197] X. Qin, Z. Zhan, S. Jahanghiri, K. Chu, C. Zhang, Z. Ding, Metal-Organic Frameworks for Electrochemical and Electrochemiluminescent Immunoassay, J. Electrochem. 29 (2023) 2218003. DOI: 10.13208/j.electrochem.2218003.
[196] K. Chu, Z. Ding, E. Zysman-Colman, Materials for Electrochemiluminescence: TADF, Hydrogen-bonding, and Aggregation- and Crystallization-Induced Emission Luminophores, Chem. Eur. J 29 (2023) e202301504. DOI: doi.org/10.1002/chem.202301504.
[195] X. Qin=, C. Zhang=, Z. Whitworth=, Z. Zhan, K. Chu, P. Hu, S. Jahanghiri, J. Zhou, J. Chen, Q. Zhang, Z. Ding, Highly efficient electrochemiluminescence of nitrogen-doped carbon quantum dots, ASEM 2 (2023) 100062, DOI: doi.org/10.1016/j.asems.2023.100062.
[194] X. Zhao, R. Zhu, M. Anikovskiy, Q. Wu, Z. Ding, Profiling H2O2 from single COS-7 cells by means of scanning electrochemical microscopy, Biosens. Bioelectron. 227 (2023) 115123. DOI: doi.org/10.1016/j.bios.2023.115123.
[193] X. Qin, Z. Zhan, Z, Ding, Progress in electrochemiluminescence biosensors based on organic framework emitters, Curr. Opin. Electrochem. 39 (2023) 101283. DOI: doi.org/10.1016/j.coelec.2023.101283.
[192] X. Qin, L. Yang, Z. Zhan, E. Cieplechowicz, K. Chu, C. Zhang, S. Jahanghiri, G. C. Welch, Z. Ding, A graphene-like N-annulated perylene diimide dimer compound for highly efficient electrochemiluminescence, Electrochim. Acta 450 (2023) 142226. DOI: doi.org/10.1016/j.electacta.2023.142226.
[191] Z. Zhan=, X. Qin=, K. Chu, X. Sun, Z. Ding, Absolute Quantum Efficiencies for Electrochemiluminescence and Chemiluminescence of Protoporphyrin IX Dimethyl Ester., J. Electroanal. Chem. 932 (2023) 117220. DOI: doi.org/10.1016/j.jelechem.2023.117220.
[190] K. Chu, J. R. Adsetts, Z. Whitworth, S. Kumar, E. Zysman-Colman, Z. Ding, Elucidation of an Aggregate Excited State in the Electrochemiluminescence and Chemiluminescence of a Thermally Activated Delayed Fluorescence (TADF) Emitter, Langmuir 39 (2023) 2829-2837. DOI: doi.org/10.1021/acs.langmuir.2c03391.
[189] X. Qin=, Z. Zhan=, R. Zhang=, K. Chu, Z. Whitworth, Z. Ding, Nitrogen- and sulfur-doped graphene quantum dots for chemiluminescence, Nanoscale 15 (2023) 3864-3871. DOI: doi.org/10.1039/D2NR07213K.
[188] L. Yang=, L. Dong=, D. Hall, M. Hesari, Y. Olivier, E. Zysman‐Colman, Z. Ding, Insights into enhanced electrochemiluminescence of a multiresonance thermally activated delayed fluorescence molecule, SmartMat 4 (2023) e1149. DOI: doi.org/10.1002/smm2.1149.
[187] J.R. Adsetts=, K. Chu=, M. Hesari, Z. Whitworth, X. Qin, Z. Zhan, Z. Ding, Absolute Electrochemiluminescence Quantum Efficiency of Au Nanoclusters by Means of a Spectroscopy Charge-Coupled Device Camera, J Phys Chem C 126 (2022) 20155–20162. DOI: 10.1021/acs.jpcc.2c06881.
[186] X. Wang, D. Vaccarello, M. J. Turnbull, Z. Ding, Benign Fabrication of Low-cost Cu2ZnSnS4 Films for Photovoltaic Cells, Catalysis Today, 403 (2022) 58-66. DOI: 10.1016/j.cattod.2021.10.009.
[185] X. Wei, K. Chu, J. R. Adsetts, H. Li, X. Kang, Z. Ding, M. Zhu, Nanocluster Transformation Induced by SbF6- Anions Toward Boosting Photochemical Activities, J Am Chem Soc (2022) 144, 20421–20433. DOI: 10.1021/jacs.2c08632.
[184] L. Yang, R. Zhang, B. Balónová, A. E. True, K. Chu, J.R. Adsetts, C. Zhang, X. Qin, E. Zysman-Colman, B.A. Blight, Z. Ding, Insights into the Electrochemiluminescence Process of a Hydrogen Bonding Iridium(III) Complex, J Electroanal Chem 920 (2022) 116594. DOI: 10.1016/j.jelechem.2022.116594.
[183] S. He=, X. Wang=, G. Xiang, K. Lac, C. Wang, S. Wang, Z. Ding, Enhanced Electrochemiluminescence of A Macrocyclic Tetradentate Chelate Pt(II) Molecule via Its Collisional Interactions with the Electrode, Chem Asian J (2022) DOI: 10.1002/asia.202200727. (selected as a very important paper (VIP) top 5%, cover feature)
[182] X. Qin=, L. Yang=, X. Wang=, D. Patel=, K. Chu, L. Kelland, J. R. Adsetts, C. Zhang, M.S. Workentin, B. L. Pagenkopf, Z. Ding, Correlating Structures to Electrochemiluminescence Efficiencies of Silole Compounds in Coreactant Systems, ChemElectroChem 9 (2022) e202200605. DOI: 10.1002/celc.202200605.
[181] M.J. Turnbull, Y. Yiu, M. Goldman, T-K. Sham, Z. Ding, Favorable Bonding and Band Structures of Cu2ZnSnS4 and CdS Films and Their Photovoltaic Interfaces, ACS Appl Mater Interfaces, 14 (2022) 32683–32695. DOI: 10.1021/acsami.2c06892
[180] P. Gunawardene, J. Martin, J. Wong, Z. Ding, J. Corrigan, M. Workentin, Controlling the Structure, Properties and Surface Reactivity of Clickable Azide-Functionalized Au25(SR)18 Nanocluster Platforms Through Regioisomeric Ligand Modifications, Angew Chem Int Ed 61 (2022) e202205194. DOI: 10.1002/anie.202205194.
[179] Qin=, L. Yang=, D. Patel=, X. Wang=, K. Chu, J. R. Adsetts, C. Zhang, B. L. Pagenkopf, Z. Ding, Exploring Effects of the π-Conjugation Length on Silole Electrochemiluminescent Efficiencies, Scientia Sinica Chimica 52 (2022) 1737-1746. DOI: 10.1360/SSC-2022-0097.
[178] S. Kumar=, P. Tourneur=, J.R. Adsetts=, M.Y. Wong, P. Rajamalli, D. Chen, R. Lazzaroni, P. Viville, D.B. Cordes, A. Slawin, Y. Olivier, J. Cornil, Z. Ding, E. Zysman-Colman, Photoluminescence and Electrochemiluminescence of Thermally Activated Delayed Fluorescence (TADF) Emitters Containing Diphenylphosphine Chalcogenide-Substituted Carbazole Donors, J Mater Chem C 10 (2022) 4646-4667. DOI: 10.1039/D1TC05696D.
[177] L. Yang=, J.R. Adsetts=, R. Zhang=, B. Balónová, M.T. Piqueras, K. Chu, C. Zhang, E. Zysman-Colman, B.A. Blight, Z. Ding, Determining Absolute Electrochemiluminescence Efficiencies of Two Iridium Complexes, J Electroanal Chem 906 (2022) 115891. DOI: 10.1016/j.jelechem.2021.115891.
[176] L. Tang, Y.-H. Chen, Q. Wang, X.-H. Wang, Q.-X. Wu, Z.-F. Ding, Microencapsulation of Functional Ovalbumin and Bovine Serum Albumin with Polylysine-Alginate Complex for Sustained Protein Vehicle’s Development, Food Chem 368 (2022) 130902. DOI: 10.1016/j.foodchem.2021.130902.(collaboration paper with visiting professor Wu)
[175] J.R. Adsetts=, Z. Whitworth=, K. Chu, L. Yang, C. Zhang, Z. Ding, Closely Following Equivalent Circuit Changes during Operation of Graphene Dot Light-Emitting Electrochemical Cells, ChemElectroChem 9 (2022) e202101512. DOI: 10.1002/celc.202101512.
[174] M. Hesari, Z. Ding, Efficient Near-infrared Electrochemiluminecnce from Au18 Nanoclusters, Chem Eur J 27 (2021) 14821-14825. DOI: 10.1002/chem.202102926. (selected as a very important paper (VIP) top 5%, cover feature)
[173] M. Chen, S.-M. Lu, Y.-Y. Peng, Z. Ding, Y.-T. Long, Tracking Electrocatalytic Activity of a Single Palladium Nanoparticle for Hydrogen Evolution Reaction, Chem Eur J 27 (2021) 11799-11803. DOI: 10.1002/chem.202101263.
[172] Y. Chen, Z. Ding, Highly Sensitive Analysis Strategies of MicroRNAs Based on Electrochemiluminescence, Curr Opin Electrochem (2021) 100901. DOI: 10.1016/j.coelec.2021.100901.
[171] M. Hesari, Z. Ding, Identifying Highly Photoelectrochemical Active Sites of Two Au21 Nanocluster Isomers toward Bright Near-Infrared Electrochemiluminescence, J Am Chem Soc 143 (2021) 19474-19485. DOI: 10.1021/jacs.1c08877.
[170] L. Yang, C.R. De-Jager, J.R. Adsetts, K. Chu, K. Liu, C. Zhang, Z. Ding, Analyzing Near-Infrared Electrochemiluminescence of Graphene Quantum Dots in Aqueous Media, Anal Chem 93 (2021) 12409-12416. DOI: 10.1021/acs.analchem.1c02441.
[169] J.R. Adsetts, K. Chu, M. Hesari, J. Ma, Z. Ding, Absolute Electrochemiluminescence Efficiency Quantification Strategy Exemplified with Ru(bpy)32+ in the Annihilation Pathway, Anal Chem 93 (2021) 11626-11633. DOI: 10.1021/acs.analchem.1c02403.
[168] K. Chu, J.R. Adsetts, J. Ma, C. Zhang, M. Hesari, L. Yang, Z. Ding, Physical Strategy to Determine Absolute Electrochemiluminescence Quantum Efficiencies of Coreactant Systems Using a Photon-Counting Photomultiplier Device, J Phys Chem C 125 (2021) 22274-22282. DOI: 10.1021/acs.jpcc.1c06342.
[167] J.M. Wong=, J. Xu=, R. Zhang, K. Chu, Z. Ding, L. Liu, Discovering the Link between Electrochemiluminescence and Energy Transfer Pathways for Mn-Doped CsPbCl3 Quantum Dot Films, J Phys Chem C 125 (2021) 13696-13705. DOI: 10.1021/acs.jpcc.1c04335.
[166] Y. Chen, J. Lin, R. Zhang, S. He, Z. Ding, L. Ding, Electrochemiluminescence of Water-Dispersed Nitrogen and Sulfur Doped Carbon Dots Synthesized from Amino Acids, Analyst 146 (2021) 5287-5293. DOI: 10.1039/d1an00991e.
[165] M. Hesari, H. Ma, Z. Ding, Monitoring Single Au38 Nanocluster Reactions via Electrochemiluminescence, Chem Sci 12 (2021) 14540-14545. DOI: 10.1039/D1SC04018A.
[164] J. R. Adsetts, Z Ding, Film Electrochemiluminescence Controlled by Interfacial Reactions Along with Aggregation‐, Matrix‐Coordination‐, and Crystallization‐Induced Emissions, ChemPlusChem 86 (2021) 155-165. DOI: 10.1002/cplu.202000745.
[163] JR Adsetts, S Hoesterey, DA Love, Z Ding, Structural Origins of Carbon Quantum Dot Luminescence by Synchrotron X-ray Spectroscopy, Electron Struct 2 (2020) 044004. DOI: 10.1088/2516-1075/abd61c.
[162] K Chu, JR Adsetts, S He, Z Zhan, L Yang, JM Wong, DA Love, Z Ding, Electrogenerated Chemiluminescence and Electroluminescence of N‐Doped Graphene Quantum Dots Fabricated from an Electrochemical Exfoliation Process in Nitrogen‐Containing Electrolytes, Chem Eur J 26 (2020) 15892-15900. DOI: 10.1002/chem.202003395.
[161] JR Adsetts, S Hoesterey, CJ Gao, DA Love, Z Ding, Electrochemiluminescence and Photoluminescence of Carbon Quantum Dots Controlled by Aggregation-Induced Emission, Aggregation-Caused Quenching, and Interfacial Reactions, Langmuir 36 (2020) 14432-14442. DOI: 10.1021/acs.langmuir.0c02886.
[160] K Chu, JR Adsetts, C Moore, Z Ding, Spooling Electroluminescence Spectroscopy of Ru(bpy)32+ Light-Emitting Electrochemical Cells with an Atomic Layer Deposited Zinc Oxide Electron-Transporting/Hole-Blocking Interlayer, ACS Appl Electron Mater 2 (2020) 3825-3830. DOI: 10.1021/acsaelm.0c00848.
[159] R Zhang, A Zhang, MJ Stillman, Z Ding, Enhancement of Tetraphenylporphyrin Electrochemiluminescence by Means of Symmetry Breaking, J Phys Chem C 124 (2020) 16568-16576. DOI: 10.1021/acs.jpcc.0c04531.
[158] R Zhang, Z Ding, Chapter 10 ECL Detection of Nanoparticles. In Analytical Electrogenerated Chemiluminescence: From Fundamentals to Bioassays, N Sojic, Ed. The Royal Society of Chemistry (2020) 274-308. DOI: 10.1039/9781788015776-00274.
[157] L Yang, A D Hendsbee, Q Xue, S He, CR De-Jager, G Xie, GC Welch, Z Ding, Atomic Precision Graphene Model Compound for Bright Electrochemiluminescence and Organic Light-Emitting Diodes, ACS Appl Mater Inter 12 (2020) 51736-51743. DOI: 10.1021/acsami.0c16238.
[156] JM Wong, R Zhang, P Xie, L Yang, M Zhang, R Zhou, R Wang, Y Shen, B Yang, HB Wang, Z Ding, Revealing Crystallization Induced Blue Shift Emission of a Di-Boron Complex by Enhanced Photoluminescence and Electrochemiluminescence, Angew Chem Int Ed 59 (2020) 17461-17466. DOI: 10.1002/anie.202007588.
[155] M Hesari, Z Ding, A Perspective on Application of Carbon Quantum Dots in Luminescence Immunoassays, Front Chem 8 (2020) 946. DOI: 10.3389/fchem.2020.580033.
[154] S He, K Chu, J M Wong, L Yang, JR Adsetts, R Zhang, Y Chen, Z Ding, Electrochemiluminescence of Bare Glassy Carbon with Benzoyl Peroxide as the Coreactant in N,N-Dimethylformamide, J Anal Test 4 (2020) 257-263. DOI: 10.1007/s41664-020-00143-y.
[153] JR Adsetts, R Zhang, L Yang, K Chu, J Wong, DA Love, Z Ding, Efficient White Electrochemiluminescent Emission from Carbon Quantum Dot Films, Front Chem 8 (2020) 865. DOI: 10.3389/fchem.2020.580022.
[152] L Yang, D Koo, J Wu, JM Wong, T Day, R Zhang, H Kolongoda, K Liu, J Wang, Z Ding, Benzosiloles with Crystallization-induced Emission Enhancement of Electrochemiluminescence: Synthesis, Electrochemistry, and Crystallography, Chem Eur J 26 (2020) 11715-11721. DOI: 10.1002/chem.202002647.
[151] RR Maar, R Zhang, DG Stephens, Z Ding, JB Gilroy, Near-Infrared Photoluminescence and Electrochemiluminescence from a Remarkably Simple Boron Difluoride Formazanate Dye, Angew Chem Int Ed 58 (2019) 1052-1056. DOI: 10.1002/anie.201811144.
[150] L Yao, F Filice, Q Yang, Z Ding, B Su, Quantitative Assessment of Molecular Transport through Sub-3 nm Silica Nanochannels by Scanning Electrochemical Microscopy. Anal Chem 91 (2019) 1548-1556. DOI: 10.1021/acs.analchem.8b04795.
[149] F Filice, M Li, Z Ding, Simulation Assisted Nanoscale Imaging of Single Live Cells with Scanning Electrochemical Microscopy. Adv Theory and Simulations 2 (2019) 1800124. DOI: 10.1002/adts.201800124.
[148] F Filice, Z Ding, Correlating Live Cell Viability with Membrane Permeability Disruption Induced by Trivalent Chromium. ACS Omega 4 (2019) 2142-2151. DOI: 10.1021/acsomega.8b02113.
[147] F Filice, Z Ding, Analysing Single Live Cells by Scanning Electrochemicl Microscopy, Analyst 144 (2019) 738-752. DOI: 10.1039/C8AN01490F.
[146] X Yin, Y Zhang, Q Guo, X Cai, J Xiao, Z Ding, J Yang, Macroporous Double-Network Hydrogel for High-Efficiency Solar Steam Generation Under 1 Sun Illumination, ACS Appl Mater Inter 10 (2018) 10998-11007. DOI: 10.1021/acsami.8b01629.
[145] S He, X Wang, G Xiang, K. Lac, S. Wang, Z. Ding, Electrogenerated chemiluminescence from the monomer of a tetradentate chelate Pt(II) compound, Electrochim Acta 271 (2018) 448-453. DOI: 10.1016/j.electacta.2018.03.056.
[144] R Zhang, F Tong, L Yang, JR Adsetts, T Yan, R Wang, Z Ding, HB Wang, Facile Synthesis and Efficient Electrochemiluminescence of a Readily Accessible Pyridopyrimidine, Chem Comm 71 (2018) 9897-9900. DOI: 10.1039/C8CC05490H.
[143] MJ Turnbull, D Vacarello, J Wong, YM Yiu, TK Sham, Z Ding, Probing the CZTS/CdS Heterojunction Utilizing Photoelectrochemistry and X-ray Absorption Spectroscopy , J Chem Phys 148 (2018) 134702. DOI: 10.1063/1.5016351.
[142] R Zhang, Z Ding, Recent Advances in Graphene Quantum DOts as Bioimaging Probes, J Analysis and Testing 2 (2018) 45-60. DOI: 10.1007/s41664-018-0047-7.
[141] MJ Turnbull, S Khoshmashrab, YM Yiu, Z Ding, Resolving Effects of Compositional Changes on Structures in Cu2ZnSnS4 Nanocrystals by X-ray Absorption Spectroscopy, Can J Chem 96 (2018) 785-794. DOI: 10.1139/cjc-2017-0697.
[140] S He, M Turnbull, Y Nie, X Sun, Z Ding, Band Structures of Blue Luminescent Nitrogen-Doped Graphene Quantum Dots by Synchrotron-Based XPS, Surface Science 676 (2018) 51-55. DOI: 10.1016/j.susc.2018.01.013.
[139] M Hesari, SM Barbon, RB Mendes, VN Staroverov, Z Ding, JB Gilroy, Structural Tuning of Boron Difluoride Formazanate Electrochemiluminescence Mediated by Tri-n-propylamine, J Phys Chem C 122 (2018) 1258-1266. DOI: 10.1021/acs.jpcc.7b10246.
[138] S He, Z Ding, Progress in Electrochemistry and Electrochemiluminescence of Metal Clusters, Electrochimica Acta (2018) 448-453. DOI: 10.1016/j.coelec.2017.11.010.
[137] FP Filice, MSM Li, J Wong, Z Ding, The Effects of Long Duration Chronic Exposure to Hexavalent Chromium on Single Live Cells Interrogated by Scanning Electrochemical Microscopy J Inorg Biochem 182 (2018) 222-229. DOI: 10.1016/j.jinorgbio.2018.02.009.
[136] R Zhang, JR Adsetts, Y Nie, X Sun, Z Ding, Electrochemiluminescence of Nitrogen- and Sulfur-Doped Graphene Quantum Dots, Carbon 129 (2018) 45-53. DOI: 10.1016/j.carbon.2017.11.091.
[135] MSM Li, FP Filice, Z Ding, Submicron Probes for Scanning Electrochemical Microscopy, Can J Chem 96 (2017) 328-335. DOI: 10.1139/cjc-2017-0611.
[134] S He, Z Ding, Progress in Electrochemistry and Electrochemiluminescence of Metal Clusters, Cur Opin Electrochem 7 (2018) 109-117. DOI: 10.1016/j.coelec.2017.11.010.
[133] H Ma, W Ma, Z Yang, Z Ding, Y Long, Characterization of Steady-State Current at Nanoelectrodes, Acta Chim Sinica 75 (2017) 1082-1086. DOI: 10.6023/A17090402.
[132] R.R. Maar, A. Rabiee Kenaree, R Zhang, Y. Tao, B.D. Katzman, V.N. Staroverov, Z. Ding, J.B. Gilroy, Aluminum Complexes of N2O23– Formazanate Ligands Supported by Phosphine Oxide Donors, Inorg Chem 56 (2017) 12436-47. DOI: 10.1021/acs.inorgchem.7b01907.
[131] J Li, C-H Liu, MN Banis, D Vaccarello, Z Ding, S-D Wang, T-K Sham, Revealing The Synergy of Mono/Bimetallic PdPt/TiO2 Heterostructure For Enhanced Photoresponse Performance, J Phys Chem C 121 (2017) 24861-70. DOI: 10.1021/acs.jpcc.7b08144.
[130] TJ Stockmann, PD Boyle, Z Ding, Preparation and Crystal Structure of Tetraoctylphosphonium Tetrakis(pentafluorophenyl)borate Ionic Liquid Catalysis Today 295 (2017) 89-94. DOI: 10.1016/j.cattod.2017.05.030.
[129] G Xiang, X Wang, MSM Li, K Lac, S Wang, Z Ding, Probing Excimers of Pt(II) Compounds with Phenyl-1,2,3-triazolyl and Pyridyl-1,2,4-triazolyl Chelate Ligands by Means of Electrochemiluminescence, ChemElectroChem (2017) DOI: 10.1002/celc.201700059.
[128] YL Ying, Z Ding, D Zhan, YT Long, Advanced Electroanalytical Chemistry at Nanoelectrodes, Chem. Sci. (2017) DOI: 10.1039/C7SC00433H.
[127] JD Henderson, FP Filice, MSM Li, Z Ding, Tracking Live Cell Response to Hexavalent Chromium Toxicity by Scanning Electrochemical Microscopy, ChemElectroChem, (2017) DOI: 10.1002/celc.201600783.
[126] M Hesari, Z Ding, A Grand Avenue to Au Nanocluster Electrochemiluminescence, Acc. Chem. Res. 50 (2017) 218-30.
[125] TJ Stockmann, R Guterman, PJ Ragogna, Z Ding, Trends in Hydrophilicity/Lipophilicity of Phosphonium Ionic Liquids as Determined by Ion-Transfer Electrochemistry, Langmuir 32 (2016) 12966-74.
[124] MJ Turnbull, D Vaccarello, Y-M Yiu, T-K Sham, Z Ding, Identifying Barriers to Charge-Carriers in the Bulk and Surface Regions of Cu2ZnSnS4 Nanocrystal Films by X-ray Absorption Fine Structures (XAFS), J. Chem. Phys. 145 (2016) 204702.
[123] K Yuan, X Wang, SK Mellerup, I Wyman, G Schatte, Z Ding, S Wang, Triarylborane-Supported Polyferrocenyl Systems: Impact of the Linking Unit on Electronic and Electrochemical Properties. Organometallics 35 (2016) 3051-9.
[122] MJ Turnbull, D Vaccarello, J Wong, Y-M Yiu, T-K Sham, Zhifeng Ding, Probing the CZTS/CdS Heterojunction Utilizing Photoelectrochemistry and X-ray Absorption Spectroscopy, J Chem Phys 148 (2018) 134702. DOI: 10.1063/1.5016351.
[121] JT Price, MSM Li, AL Brazeau, D Tao, G Xiang, Y Chen, R McDonald, ND Jones, Z Ding, Structural Insight into Electrogenerated Chemiluminescence of Para-substituted Aryl-Triazole-Thienyl Compounds, J Phys Chem C 120 (2016) 21778-89.
[120] T Xie, C Jing, M Li, W Ma, Z Ding, Y-T Long, pH-Response Mechanism of Redox Reaction Between Silver Ions and Hydroquinone , J Phys Chem C 120 (2016) 23104-10.
[119] MSM Li, K Chu, JT Price, ND Jones, Z Ding, Analyzing Electrochemiluminescence Mechanisms of Thiophene-triazole-thiophene Luminophores with In-situ Spectroscopy,ChemElectroChem 3 (2016) 2170-8.
[118] MSM Li, FP Filice, Z Ding, Scanning Electrochemical Microscopy Imaging with Laser-Pulled Probes, J Electroanal Chem 781 (2016) 126-35.
[117] P Chauhan, K Chu, N Yan, Z Ding, Comparison Study of Electrochemiluminescence of Boron-dipyrromethene (BODIPY) Dyes in Aprotic and Aqueous Solutions, J Electroanal Chem 781 (2016) 181-9.
[116] M Hesari, J Turnbull, CB Khadka, F Weigend, JF Corrigan, Z Ding, Enhancing Electrochemiluminescence of Chalcogenide Clusters by Means of Mn Replacement,Electrochim Acta 260 (2016) 79-86.
[115] MSM Li, FP Filice, Z Ding, Determining Live Cell Topography by Scanning Electrochemical Microscopy, J Electroanal Chem 779 (2016) 176-86.
[114] MSM Li, FP Filice, JD Henderson, Z Ding, Probing Cd2+-Stressed Live Cell Membrane Permeability with Various Redox Mediators in Scanning Electrochemical Microscopy, J Phys Chem C 120 (2016) 6094-103.
[113] M Hesari, Z Ding, Electrogenerated Chemiluminescence: Light Years Ahead, J Electrochem Soc 163 (2016) H3116-31.
[112] L Perini, D Vaccarello, S Martin, K Jeffs, Z Ding, Cost-Effective Electrophoretic Deposition of Cu2ZnSnS4 Nanocrystals for Photovoltaic Films J Electrochem Soc 163 (2016) H3110-5
[111] JD Henderson, FP Filice, MSM Li, Z Ding, Tracking Live Cell Response to Cadmium(II) Concentrations by Scanning Electrochemical Microscopy, J Inorg Biochem 158 (2016) 92-8.
[110] FP Filice, MSM Li, JD Henderson, Z Ding, Mapping Cd-induced Membrane Permeability Changes of Single Live Cells by Means of Scanning Electrochemical Microscopy, Anal Chim Acta 908 (2016) 85-94.
[109] MJ Turnbull, S Khoshmashrab, Z Wang, R Harbottle, T-K Sham, Z Ding, Controlling Cu2ZnSnS4 Photocatalytic Ability Through Alterations in Sulfur Availability, Catalysis Today 260 (2016) 119-25.
[108] M Hesari, KN Swanick, J-S Lu, R Whyte, S Wang, Z Ding, Highly Efficient Dual-Color Electrochemiluminescence from BODIPY-Capped PbS Nanocrystals, J Am Chem Soc 137 (2015) 11266-9
[107] A Tapley, L Liu, Xiaoyu Cui,Lucia Zuin, David A. Love, J Zhou, T-K Sham, Z Ding, Assessing the Band Structure of CuInS2 Nanocrystals and Their Bonding with the Capping Ligand, J Phys Chem C 119 (2015) 20967-74
[106] FP Filice,MSM Li, JD Henderson, Z Ding, 3D Electrochemical Functionality of an Interdigitated Array Electrode by Scanning Electrochemical Microscopy, J Phys Chem C 119 (2015) 21473-82.
[105] M Zhang, Z Ding, Y-T Long, Sensing Cisplatin-induced Permeation of Single Live Human Bladder Cancer Cells by Scanning Electrochemical Microscopy, Analyst 140 (2015) 6054-60
Simultaneous quantification of cellular topography and membrane permeability of single live cells was realized by means of scanning electrochemical microscopy.
[104] D Vaccarello, L Liu, J Zhou, T-K Sham, Z Ding, Photoelectrochemical and Physical Insight into Cu2ZnSnS4 Nanocrystals Using Synchrotron Radiation, J Phys Chem C 119 (2015) 11922-8.
[103] KN Swanick, Martina Sandroni, Zhifeng Ding, Eli Zysman-Colman, Electrochemiluminescence of a Heterometallic Ruthenium(II) and Iridium(III) Complex Soft Salt, Chem Eur J (2015) 7435-40 (VIP article, backcover)
Enhanced electrochemiluminescence (ECL) from a heterometallic soft salt, [Ru(dtbubpy)3][Ir(ppy)2(CN)2]2 ([Ir][Ru][Ir]), was discovered to be suitable for the development of efficient and low energy cost ECL detection systems. Though ECL intensity in the annihilation path was enhanced 18×, ECL in the co-reactant path with tri-n-propylamine was enhanced a further 4×. The unique light emission at 634 nm is due to the [Ru]2+* and no [Ir]−* was generated in either route.
[102] M. Hesari, SM Barbon, VN Staroverov, Z Ding, JB Gilroy, Efficient Electrochemiluminescence of a Readily Accessible Boron Difluoride Formazanate Dye, Chem Commun 51 (2015) 3766-9.
[101] M. Hesari, J.-s. Lu, S. Wang, Z. Ding, Stable and Efficient Electrochemiluminescence of a Boron-dipyrromethene Dye (BODIPY), Chem Comm 51 (2015) 1081-4
[100] T. Xie, C. Jing, W. Ma, Z. Ding, A.J. Gross, Y.-T. Long, A Real-Time Monitoring for the Morphological Variations of Single Gold Nanorods, Nanoscale 7 (2015) 511-7
[99] S. Khoshmashrab, M.J. Turnbull, D. Vaccarello Y.Nie, S. Martin, D.A. Love, P.K. Lau, X. Sun, Z. Ding, Effects of Cu Content on the Photoelectrochemistry of Cu2ZnSnS4 Nanocrystal Thin Films, Electrochim Acta 162 (2015) 176-84
[98] D Vaccarello, J Hedges, A Tapley, DA Love, Z Ding, Dynamic Aspects of CuInS2 Nanocrystal Thin Films,J. Electroanal. Chem. 738 (2015) 35-9
[97] TJ Stockman Z Ding, Electrochemical Behavior of Ferrocenes in Tributylmethylphosphonium Methyl Sulfate Mixtures with Water and 1,2-dichloroethane, Can J Chem 93 (2015) 13-21.
[96] X.-Y. Liu, L. Shi, Z. Ding, Y.-T. Long, New Insight into the Application of GFP Chromophore Inspired Derivatives: a F- Fluorescent Chemodosimeter, RSC Adv 4 (2014) 53557-60
[95] M Hesari,MS Workentin, Z Ding, Highly Efficient Electrogenerated Chemiluminescence of Au38 Nanoclusters, ACS Nano 8 (2014) 8543-53.
[94] J. Gu, M.J. Hu, Q.Q. Guo, Z.F. Ding, X.L. Sun, J. Yang, High-yield Synthesis of Graphene Quantum Dots with Strong Green Photoluminescence, RSC Adv 4 (2014) 50141-4
[93] M Hesari, MS Workentin, Z Ding, Thermodynamic and Kinetic Origins of Au25(0) Nanocluster Electrochemiluminescence, Chem Eur J 20 (2014) 15116-21
[92] M Hesari, MS Workentin, Z Ding, NIR Electrochemiluminescence from Au25- Nanoclusters Facilitated by Highly Oxidizing and Reducing Co-reactant Radicals, Chem Sci 5 (2014) 3814-22.
[91] M Hesari, Z Ding, MS Workentin, Electrogenerated chemiluminescence of Au144(SC2H4Ph)60 clusters, Organometallics 33 (2014) 4888-92
[90] M Hesari, MS Workentin, Z Ding, Near-infrared Electrochemiluminescence from Au25(SC2H4Ph)18+ Clusters Co-reacted with Tri-n-propylamine, RSC Adv 4(2014)29559-62.
[89] A Tapley, C Hart, D Vaccarello, DA Love, Z Ding. Effect of Annealing on the Photoelectrochemical Behaviour of CuInS2 Nanocrystal Films,J Electrochem Soc 161 (2014) H725-9
[88] MSM Li, FP Filice, Z Ding, A Time Course Study of Cadmium Effect on Membrane Permeability of Single Human Bladder Cancer Cells Using Scanning Electrochemical Microscopy, J Inorg Biochem 136 (2014) 177-83.
[87] TJ Stockamnn, J Zhang, A-M Montgomery, Z Ding, Electrochemical Assessment of Water|Ionic Liquid Biphasic Systems Towards Cesium Extraction from Nuclear Waste, Anal Chim Acta 821 (2014) 41-47.
[86] KN Swanick,S Ladouceur, E Zysman-Colman, Z Ding, Correlating Electronic Structures to Electrochemiluminescence of Cationic Ir Complexes, RSC Adv 3 (2013) 19961-4.
[85] S Ladouceur, KN Swanick, S Duval, Z Ding, E Zysman-Colman, Strongly Blue Luminescent Cationic Iridium(III) Complexes with an Electron-Rich Ancillary Ligand: Evaluation of Their Optoelectronic and
Electrochemiluminescence Properties, Eur J Inorg Chem 2013 (2013) 5329-43. One of the 15 most accessed papers in September 2013.
[84] J Zhou, H Liu, F Wang, T Simpson, T-K Sham, X Sun, Z Ding, An electrochemical approach to fabricating honeycomb assemblies from multiwall carbon nanotubes, Carbon 59 (2013) 130-139.
[83] D Vaccarello, A Tapley, DA Love, Z Ding, Optimization of the Cu2ZnSnS4 nanocrystal recipe by means of photoelectrochemical measurements, RSC Adv. 3 (2013) 3512-5.
[82] T Li, F Jia, Y Fan, Z Ding, J Yang, Fabrication of Nanoporous Thin-film Working Electrodes and their Biosensing Applications, Biosens Bioelectron"> 42 (2013) 5-12
[81] A Tapley, D Vaccarello, J Hedges, F, Jia, D Love, Z Ding, Prep & Charact of CuInS2 NCs for Light-absorbing in Solar Cells", Phys Chem Chem Phys 15 (2013) 1431-1436.
[80] M Harati, D Love, LWM Lau, Z Ding, Prep of Crystall Zinc Oxide Films by One-step Electrodep in Reline, Mater Lett 89 (2012) 339-42.
[79] C Nowierski, JJ Noël, DW Shoesmith, Z Ding, Pathways for hydrogen absorption into Zircaloy-2 assessed by SECM, SEM &ESI,J Electrochem Soc 159 (2012) C590-C6
[78] TJ Stockmann, Z Ding, Facile determ of formal transfer potentials for hydrophilic alkali metal ions at w/IL microinterfaces, Phys Chem Chem Phys 14 (2012) 13949-54.
[77] TJ Stockmann, Z Ding, Tetraoctylphosphonium Tetrakis(pentafluorophenyl)Borate Room Temperature Ionic Liquid Towards Enhanced Physicochemical Properties for Electrochemistry, J Phys Chem B 116 (2012) 12826-34.
[76] TJ Stockmann, A-M Montgomery, Z Ding, Correlation of Stoichiometries for Rb+ Extraction Determined by Mass Spectrometry and Electrochemistry at Liquid|Liquid Interfaces, Anal Chem 84 (2012) 6143-9.
[75] TJ Stockmann, A-M Montgomery, Z Ding, Determination of alkali metal ion transfers at liquid|liquid interfaces stabilized by a micropipette, J Electroanal Chem 684 (2012) 6-12.
[74] TJ Stockmann, A-M Montgomery, Z Ding, Formal transfer potentials of strontium and uranyl ions at water|1,2-dichloroethane interfaces, Can. J. Chem. 90 (2012) 836-42
[73] TJ Stockmann, J Zhang, JC Wren, Z Ding, Hydrophobic alkylphosphonium ionic liquid for electrochemistry at UMEs and micro L|L interfaces, Electrochim Acta 62 (2012) 8-18. (99%)
[72] KN Swanick, M Hesari, MS Workentin, Z Ding, Interrogating NIR ECL of Au25 Clusters, J Am Chem Soc 134 (2012) 15205–8.
[71] KN Swanick, S Ladouceur, E Zysman-Colman, Z Ding, Bright ECL of Ir(iii) complexes, Chem Commun 48 (2012) 3179-81. Bottom Cover
[70] KN Swanick, S Ladouceur, E Zysman-Colman, Z Ding, Self-Enhanced ECL of an Iridium(III) Complex: Mechanistic Insight, Angew Chem Int Ed 51 (2012) 11079-82.
[69] KN Swanick, JT Price, ND Jones, Z Ding, Synth, Struct, Electrochem & ECL of Thienyltriazoles, J Org Chem 77 (2012) 5646-55.
[68] M Zhang, Y-T Long, Z Ding, Filming a live cell by SECM, Chem Central J,6 (2012) 20/1-/6.
[67] MMN Zhang, Y-T Long, Z Ding, Cisplatin effects on evolution of ROS from single human bladder cancer cells investigated by SECM, J Inorg Biochem 108 (2012) 115-22.
[66] L Shi, W Song, Y Li, D-W Li, KN Swanick, Z Ding, Y-T Long, A multi-channel sensor based on 8-hydroxyquinoline ferrocenoate for probing Hg(II) ion, Talanta 84 (2011) 900-4.
[65] TJ Stockmann, Z Ding, Uranyl Ion Extraction with Conventional PUREX/TRUEX Ligands Assessed by Electroanalytical Chemistry at Micro Liquid/Liquid Interfaces, Anal Chem 83 (2011) 7542-9.
[64] TJ Stockmann, Y Lu, J Zhang, HH Girault, Z Ding, Interfacial Complexation of Sr2+ for Its Extraction in Reprocessing Spent Nuclear Fuels, Chem Eur J 17 (2011) 13206-16. Inside Cover
[63] TJ Stockmann, AJ Olaya, MA Méndez, HH Girault, Z Ding, Evaluation of Gibbs Energy of UO22+ Transfer at L|L Interface Supported on a Microhole, Electroanalysis 23 (2011) 2677-86.
[62] KN Swanick, DW Dodd, JT Price, AL Brazeau, ND Jones, RHE Hudson, Z Ding, ECL of triazole-modified deoxycytidines in DMF, Phys Chem Chem Phys 13 (2011) 17405-12.
[61] F Wang, R Li, X Sun, Z Ding, Confocal Raman spectromicroscopy for tin-core/carbon-shell nanowire heterostructure, Appl Surf Sci 258 (2011) 394-8.
[60] A Benvidi, SN Lanjwani, Z Ding, Cd2+ transfer across water/1,2-dichloroethane microinterfaces facilitated by complex formation with 1,10-Phenanthroline, Electrochim Acta 55 (2010) 2196-200.
[59] A Benvidi, SN Lanjwani, Z Ding, Facilitated proton transfer by 2-acetylpyridine-4-phenyl-3-thiosemicarbazone across water/1,2-dichloroethane interface, J Electroanal Chem 641 (2010) 99-103.
[58] M Harati, J Jia, K Giffard, K Pellarin, C Hewson, DA Love, WM Lau, Z Ding, One-pot electrodeposition, characterization & photoactivity of CIGS thin films for solar cells, Phys Chem Chem Phys 12 (2010) 15282-90.
[57] H Liu, Y Zhang, R Li, X Sun, F Wang, Z Ding, P Merel, S Desilets, Aligned synthesis of MWCNT with high purity by aerosol assisted chemical vapor deposition, Appl Surf Sci 256 (2010) 4692-6.
[56] TJ Stockmann, Z Ding, Hydrophobicity of room temperature ionic liquids assessed by the Galvani potential difference established at micro liquid/liquid interfaces, J Electroanal Chem 649 (2010) 23-31.
[55] X Zhao, PM Diakowski, Z Ding, Deconvoluting Topography and Spatial Physiological Activity of Live Macrophage Cells by SECM in Constant-Distance Mode, Anal Chem 82 (2010) 8371-3.
[54] X Zhao, S Lam, J Jass, Z Ding, SECM of single human urinary bladder cells using reactive oxygen species as probe of inflammatory response, Electrochem Commun 12 (2010) 773-6.
[53] X Zhao, M Zhang, Y Long, Z Ding, Redox reactions of reactive oxygen species as the probe for SECM of single live T24 cells, Can J Chem 88 (2010) 569-76.
[52] J Zhou, C Booker, R Li, X Sun, T-K Sham, Z Ding, Electrochem. & ECL study of blue luminescent carbon NCs, Chem Phys Lett 493 (2010) 296-8.
[51] H He, Z Ding, DW Shoesmith, Determine reactivity and sustainability on individual hyper-stoichiometric UO2+x grains by Raman and SECM, Electrochem Commun 11 (2009) 1724-7.
[50] H He, RK Zhu, Z Qin, P Keech, Z Ding, DW Shoesmith, Determination of Local Corrosion Kinetics on Hyper-Stoichiometric UO2+x by SECM, J Electrochem Soc 156 (2009) C87-C94.
[49] G Kaur, F Wang, YM Yiu, DW Shoesmith, M Zinke-Allmang, T-K Sham, Z Ding, Surface second harmonic generation of Se-Te-Sb films, J Mater Sci-Mater El 20 (2009) 164-9.
[48] C Lu, Z Ding, RH Lipson, A new chimie douce approach to crystalline vanadium pentoxide nanobelts, J Mater Chem 19 (2009) 6512-5. Bottom Cover
[47] C Lu, J Zhou, RH Lipson, Z Ding, Simple method to fabricate large scale quantum dot architectures, Mater Lett 63 (2009) 563-5.
[46] C Nowierski, JJ Noel, DW Shoesmith, Z Ding, Correlating surface microstructures with reactivity on zirconium using SECM and SEM, Electrochem Commun 11 (2009) 1234-6.
[45] J Zhou, J Cheiftz, R Li, F Wang, X Zhou, T-K Sham, X Sun, Z Ding, Tailoring multi-wall carbon nanotubes for smaller nanostructures, Carbon 47 (2009) 829-38.
[44] J Zhou, X Zhou, R Li, X Sun, Z Ding, J Cutler, T-K Sham, Electronic structure and luminescence center of blue luminescent carbon nanocrystals, Chem Phys Lett 474 (2009) 320-4.
[43] J Zhou, J Zhu, J Brzezinski, Z Ding, Tunable electrogenerated chemiluminescence from CdSe nanocrystals, Can J Chem 87 (2009) 386-91.
[42] C Booker, X Wang, S Haroun, J Zhou, M Jennings, BL Pagenkopf, Z Ding, Tuning of electrogenerated silole chemiluminescence, Angew Chem Int Edit 47 (2008) 7731-5.
[41] S Xu, G Podoprygorina, C Moon, V Boehmer, Z Ding, S Mittler, Electrochem. response of Fc filled calix[4]arene capsules in solution and immobilized on gold, Electrochim Acta 53 (2008) 7981-7.
[40] R Zhu, SA Macfie, Z Ding, Effects of Cadmium on Photosynthetic Oxygen Evolution from Single Stomata in Brassica juncea (L.) Czern, Langmuir 24 (2008) 14261-8.
[39] R Zhu, Z Qin, JJ Noel, DW Shoesmith, Z Ding, Analyzing the influence of alloying elements and impurities on the localized reactivity of titanium 7 by SECM, Anal Chem 80 (2008) 1437-47.
[38] R Zhu, S Xu, G Podoprygorina, V Boehmer, S Mittler, Z Ding, Reading oxidation states of Fc+ in calix[4]arene heterodimers immobilized by SECM probe, J Phys Chem C 112 (2008) 15562-9.
[37] PM Diakowski, Z Ding, Interrogation of living cells using alternating current scanning electrochemical microscopy (AC-SECM), Phys Chem Chem Phys 9 (2007) 5966-74. Front Cover
[36] PM Diakowski, Z Ding, Novel strategy for constant-distance imaging using alternating current scanning electrochemical microscopy, Electrochem Commun 9 (2007) 2617-21.
[35] F Wang, X Zhou, J Zhou, T-K Sham, Z Ding, Observation of single tin dioxide nanoribbons by confocal Raman microspectroscopy, J Phys Chem C 111 (2007) 18839-43.
[34] S Xu, G Podoprygorina, V Boehmer, Z Ding, P Rooney, C Rangan, S Mittler, Tetraurea Calix[4]arenes: synthesis, dimerization to capsules, and self-assembly, Org Biomol Chem 3 (2007) 558-68.
[33] X Zhao, NO Petersen, Z Ding, Comparison study of live cells by atomic force microscopy, confocal microscopy, and SECM, Can J Chem 85 (2007) 175-83. Front Cover
[32] J Zhou, C Booker, R Li, X Zhou, T-K Sham, X Sun, Z Ding, An electrochemical avenue to blue luminescent nanocrystals from MWCNTs, J Am Chem Soc 129 (2007) 744-5.
[31] J Zhou, X Zhou, X Sun, R Li, M Murphy, Z Ding, X Sun, T-K Sham, Interaction between Pt nanoparticles and carbon nanotubes - An XANES study, Chem Phys Lett 437 (2007) 229-32.
[30] J Zhou, X Zhou, X Sun, M Murphy, F Heigl, T-K Sham, Z Ding, Electronic structures of CdSe nanocrystals - An XANES investigation, Can J Chem 85 (2007) 756-60.
[29] R Zhu, C Nowierski, Z Ding, JJ Noel, DW Shoesmith, Insights into grain structures and their reactivity on grade-2 Ti alloy surfaces by SECM, Chem Mater 19 (2007) 2533-43.
[28] S Lanjwanir, R Zhu, M Khuhawar, Z Ding, HPLC determination of Pt in blood & urine of cancer patients after administration of cisplatin, J Pharmaceut Biomed 40 (2006) 833-9.
[27] R. Zhu, S.M. Macfie, Z. Ding, "Cadmium-induced plant stress investigated by scanning electrochemical microscopy", Journal of Experimental Botany 56 (2005) 2831-2838.
[26] R. Zhu, Z. Ding, Enhancing image quality of scanning electrochemical microscopy by improved probe fabrication and displacement, Canadian Journal of Chemistry 83 (2005) 1779-1791.
[25] B.M. Quinn, Z. Ding, R. Moulton, A.J. Bard, Novel Electrochemical Studies of Ionic Liquids, Langmuir 18 (2002) 1734-1742.
[24] N. Myung, Z. Ding, A.J. Bard, Electrogenerated Chemiluminescence of CdSe Nanocrystals, Nano Letters 2 (2002) 1315-1319.
[23] W. Miao, Z. Ding, A.J. Bard, Solution Viscosity Effects on the Heterogeneous Electron Transfer Kinetics of Ferrocenemethanol in Dimethyl Sulfoxide-Water Mixtures, Journal of Physical Chemistry B 106 (2002) 1392-1398.
[22] Y. Lee, Z. Ding, A.J. Bard, Combined scanning electrochemical/optical microscopy with shear force and current feedback, Analytical Chemistry 74 (2002) 3634-3643.
[21] Z. Ding, B.M. Quinn, S.K. Haram, L.E. Pell, B.A. Korgel, A.J. Bard, Electrochemistry and electrogenerated chemiluminescence from silicon nanocrystal quantum dots, Science (Washington, DC, United States) 296 (2002) 1293-1297.
[20] Y. Zu, Z. Ding, J. Zhou, Y. Lee, A.J. Bard, Scanning Optical Microscopy with an Electrogenerated Chemiluminescent Light Source at a Nanometer Tip, Analytical Chemistry 73 (2001) 2153-2156.
[19] Z. Ding, B.M. Quinn, A.J. Bard, Kinetics of Heterogeneous Electron Transfer at Liquid/Liquid Interfaces As Studied by SECM, Journal of Physical Chemistry B 105 (2001) 6367-6374.
[18] S. Amemiya, Z. Ding, J. Zhou, A.J. Bard, Studies of charge transfer at liquid|liquid interfaces and bilayer lipid membranes by scanning electrochemical microscopy, Journal of Electroanalytical Chemistry 483 (2000) 7-17.
[17] D.J. Fermin, H.D. Duong, Z. Ding, P.F. Brevet, H.H. Girault, Solar energy conversion using dye-sensitized liquid/liquid interfaces, Electrochemistry Communications 1 (1999) 29-32.
[16] D.J. Fermin, H. Dung Duong, Z. Ding, P.F. Brevet, H.H. Girault, Photoinduced electron transfer at liquid/liquid interfaces Part II. A study of the electron transfer and recombination dynamics by intensity modulated photocurrent spectroscopy (IMPS), Physical Chemistry Chemical Physics 1 (1999) 1461-1467.
[15] D.J. Fermin, H.D. Duong, Z. Ding, P.-F. Brevet, H.H. Girault, Photoinduced Electron Transfer at Liquid/Liquid Interfaces. Part III. Photoelectrochemical Responses Involving Porphyrin Ion Pairs, Journal of the American Chemical Society 121 (1999) 10203-10210.
[14] L. Tomaszewski, Z. Ding, D.J. Fermin, H.M. Cacote, C.M. Pereira, F. Silva, H.H. Girault, Spectroelectrochemical study of the copper(II) transfer assisted by 6,7-dimethyl-2,3-di(2-pyridyl)quinoxaline at the water|1,2-dichloroethane interface, Journal of Electroanalytical Chemistry 453 (1998) 171-177.
[13] D.J. Fermin, Z. Ding, P.F. Brevet, H.H. Girault, Potential-modulated reflectance spectroscopy of the methyl orange transfer across the water|1,2-dichloroethane interface, Journal of Electroanalytical Chemistry 447 (1998) 125-133.
[12] D.J. Fermin, Z. Ding, H.D. Duong, P.F. Brevet, H.H. Girault, Photocurrent responses associated with heterogeneous electron transfer at liquid/liquid interfaces, Chemical Communications (Cambridge) (1998) 1125-1126.
[11] D.J. Fermin, Z. Ding, H.D. Duong, P.-F. Brevet, H.H. Girault, Photoinduced Electron Transfer at Liquid/Liquid Interfaces. 1. Photocurrent Measurements Associated with Heterogeneous Quenching of Zinc Porphyrins, Journal of Physical Chemistry B 102 (1998) 10334-10341.
[10] Z. Ding, F. Reymond, P. Baumgartner, D.J. Fermin, P.-F. Brevet, P.-A. Carrupt, H.H. Girault, Mechanism and dynamics of methyl and ethyl orange transfer across the water/1,2-dichloroethane interface, Electrochimica Acta 44 (1998) 3-13.
[9] Z. Ding, D.J. Fermin, P.-F. Brevet, H.H. Girault, Spectroelectrochemical approaches to heterogeneous electron transfer reactions at the polarized water/1,2-dichloroethane interfaces, Journal of Electroanalytical Chemistry 458 (1998) 139-148.
[8] R.A.W. Dryfe, Z. Ding, R.G. Wellington, P.F. Brevet, A.M. Kuznetzov, H.H. Girault, Time-Resolved Laser-Induced Fluorescence Study of Photoinduced Electron Transfer at the Water/1,2-Dichloroethane Interface, Journal of Physical Chemistry A 101 (1997) 2519-2524.
[7] Z. Ding, R.G. Wellington, P.-F. Brevet, H.H. Girault, Differential cyclic voltabsorptometry and chronoabsorptometry studies of ion transfer reactions at the water|1,2-dichloroethane interface, Journal of Electroanalytical Chemistry 420 (1997) 35-41.
[6] Z. Ding, P.F. Brevet, H.H. Girault, Heterogeneous electron transfer at the polarized water/1,2-dichloroethane interface studied by in situ UV-VIS spectroscopy and differential cyclic voltabsorptometry, Chemical Communications (Cambridge) (1997) 2059-2060.
[5] Z. Ding, R.G. Wellington, P.F. Brevet, H.H. Girault, Spectroelectrochemical Studies of Ru(bpy)32+ at the Water/1,2-Dichloroethane Interface, Journal of Physical Chemistry 100 (1996) 10658-10663.
[4] X.-B. Xia, Z.-F. Ding, J.-Z. Liu, Quenching by unsaturated ferrocene derivatives of the luminescence of Ru(bpy)3, Journal of Photochemistry and Photobiology, A: Chemistry 86 (1995) 85-88.
[3] X.-B. Xia, Z.-F. Ding, J.-Z. Liu, Quenching by unsaturated ferrocene and ferrocenium derivatives of the luminescence of Ru(phen)32+, Journal of Photochemistry and Photobiology, A: Chemistry 88 (1995) 81-84.
[2] Z.-F. Ding, C.-R. Wu, Y.-M. Sun, J.-Z. Liu, Calculation on the band structure of poly(2,5-furanylene vinylene) compared with valence level XPS spectra, Chemical Physics 175 (1993) 283-288.
[1] X. You, Z. Ding, X. Peng, G. Xue, (2-Formyl-1-chlorovinyl)ferrocene film electrode prepared by electrochemical polymerization, Electrochimica Acta 34 (1989) 249-253.