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Publications by James Gardner

Peer reviewed

Articles

[1]
T. L. Church et al., "A microporous polymer based on nonconjugated hindered biphenyls that emits blue light," Scientific Reports, vol. 14, no. 1, 2024.
[2]
M. Jamshidi and J. M. Gardner, "Copper(I) Iodide Thin Films: Deposition Methods and Hole-Transporting Performance," Molecules, vol. 29, no. 8, 2024.
[4]
M. Jamshidi, J. Bouheriche and J. M. Gardner, "Photoluminescent copper(I) iodide alkylpyridine thin films as sensors for volatile halogenated compounds," Frontiers in Chemistry, vol. 11, 2023.
[8]
Y. Ma et al., "Eutectic freeze crystallization for recovery of NiSO4 and CoSO4 hydrates from sulfate solutions," Separation and Purification Technology, vol. 286, 2022.
[9]
[10]
A. Shatskiy et al., "Back cover," Chemical Science, vol. 12, no. 15, pp. 5430-5437, 2021.
[12]
F. Haydous, J. M. Gardner and U. B. Cappel, "The impact of ligands on the synthesis and application of metal halide perovskite nanocrystals," Journal of Materials Chemistry A, vol. 9, no. 41, pp. 23419-23443, 2021.
[15]
W. Zhang et al., "Organic Salts as p-Type Dopants for Efficient LiTFSI-Free Perovskite Solar Cells," ACS Applied Materials and Interfaces, vol. 12, no. 30, pp. 33751-33758, 2020.
[17]
W. Zhang et al., "Single crystal structure and opto-electronic properties of oxidized Spiro-OMeTAD," Chemical Communications, vol. 56, no. 10, pp. 1589-1592, 2020.
[18]
M. E. Karlsson et al., "The effect of ZnO particle lattice termination on the DC conductivity of LDPE nanocomposites," Materials Advances, vol. 1, no. 6, pp. 1653-1664, 2020.
[19]
B. P. Kore and J. M. Gardner, "Water-resistant 2D lead(ii) iodide perovskites : correlation between optical properties and phase transitions," Materials Advances, vol. 1, no. 7, pp. 2395-2400, 2020.
[20]
V. Leandri, J. M. Gardner and M. Jonsson, "Coumarin as a Quantitative Probe for Hydroxyl Radical Formation in Heterogeneous Photocatalysis," The Journal of Physical Chemistry C, vol. 123, no. 11, pp. 6667-6674, 2019.
[21]
V. Leandri et al., "Excited-State Dynamics of [Ru(bpy)(3)](2+) Thin Films on Sensitized TiO2 and ZrO2," ChemPhysChem, vol. 20, no. 4, pp. 618-626, 2019.
[22]
V. Leandri et al., "Exploring the Optical and Electrochemical Properties of Homoleptic versus Heteroleptic Diimine Copper(I) Complexes," Inorganic Chemistry, vol. 58, no. 18, pp. 12167-12177, 2019.
[23]
W. Zhang et al., "Mechanistic Insights from Functional Group Exchange Surface Passivation : A Combined Theoretical and Experimental Study," ACS Applied Energy Materials, vol. 2, no. 4, pp. 2723-2733, 2019.
[24]
J. Liu et al., "Metal nanowire networks : Recent advances and challenges for new generation photovoltaics," Materials Today Energy, vol. 13, pp. 152-185, 2019.
[25]
F. Zhang et al., "Polymeric, Cost-Effective, Dopant-Free Hole Transport Materials for Efficient and Stable Perovskite Solar Cells," Journal of the American Chemical Society, vol. 141, no. 50, pp. 19700-19707, 2019.
[29]
U. B. Cappel et al., "Electronic Structure Characterization of Cross-Linked Sulfur Polymers," ChemPhysChem, vol. 19, no. 9, pp. 1041-1047, 2018.
[30]
D. Phuyal et al., "Electronic Structure of Two-Dimensional Lead(II) Iodide Perovskites : An Experimental and Theoretical Study," Chemistry of Materials, vol. 30, no. 15, pp. 4959-4967, 2018.
[32]
J. Gao et al., "Light-Induced Interfacial Dynamics Dramatically Improve the Photocurrent in Dye-Sensitized Solar Cells : An Electrolyte Effect," ACS Applied Materials and Interfaces, vol. 10, no. 31, pp. 26241-26247, 2018.
[33]
V. Leandri et al., "Rapid Microwave-Assisted Self-Assembly of a Carboxylic-Acid-Terminated Dye on a TiO2 Photoanode," ACS Applied Energy Materials, vol. 1, no. 1, pp. 202-210, 2018.
[35]
[36]
A. Sadollahkhani et al., "Energetic Barriers to Interfacial Charge Transfer and Ion Movement in Perovskite Solar Cells," ChemPhysChem, vol. 18, no. 21, pp. 3047-3055, 2017.
[37]
M. Safdari et al., "Impact of synthetic routes on the structural and physical properties of butyl-1,4-diammonium lead iodide semiconductors," Journal of Materials Chemistry A, vol. 5, no. 23, pp. 11730-11738, 2017.
[38]
M. T. Hoang et al., "Integrated Photoelectrolysis of Water Implemented On Organic Metal Halide Perovskite Photoelectrode," ACS Applied Materials and Interfaces, vol. 8, no. 19, pp. 11904-11909, 2016.
[39]
[40]
M. Safdari et al., "Layered 2D alkyldiammonium lead iodide perovskites : synthesis, characterization, and use in solar cells," Journal of Materials Chemistry A, vol. 4, no. 40, pp. 15638-15646, 2016.
[42]
M. Safdari et al., "Erratum to : Structure and function relationships in alkylammonium lead(II) iodide solar cells," Journal of Materials Chemistry A, vol. 3, no. 17, pp. 9317-9317, 2015.
[43]
J. S. Lissau et al., "Photon Upconversion from Chemically Bound Triplet Sensitizers and Emitters on Mesoporous ZrO2 : Implications for Solar Energy Conversion," The Journal of Physical Chemistry C, vol. 119, no. 46, pp. 25792-25806, 2015.
[44]
P. Liu, J. Gardner and L. Kloo, "Solution processable, cross-linked sulfur polymers as solid electrolytes in dye-sensitized solar cells," Chemical Communications, vol. 51, no. 78, pp. 14660-14662, 2015.
[45]
M. Safdari et al., "Structure and function relationships in alkylammonium lead(II) iodide solar cells," Journal of Materials Chemistry A, vol. 3, no. 17, pp. 9201-9207, 2015.
[46]
J. S. Lissau et al., "What Limits Photon Upconversion on Mesoporous Thin Films Sensitized by Solution-Phase Absorbers?," The Journal of Physical Chemistry C, vol. 119, no. 9, pp. 4550-4564, 2015.
[48]
M. Bhagavathiachari et al., "A quasi-liquid polymer-based cobalt redox mediator electrolyte for dye-sensitized solar cells," Physical Chemistry, Chemical Physics - PCCP, vol. 15, no. 40, pp. 17419-17425, 2013.
[49]
[50]
J. M. Gardner et al., "Light-Driven Electron Transfer between a Photosensitizer and a Proton-Reducing Catalyst Co-adsorbed to NiO," Journal of the American Chemical Society, vol. 134, no. 47, pp. 19322-19325, 2012.
[51]
J. C. Freys et al., "Ru-based donor-acceptor photosensitizer that retards charge recombination in a p-type dye-sensitized solar cell," Dalton Transactions, vol. 41, no. 42, pp. 13105-13111, 2012.
[53]
B. H. Farnum et al., "Influence of ion pairing on the oxidation of iodide by MLCT excited states," Dalton Transactions, vol. 40, no. 15, pp. 3830-3838, 2011.
[54]
J. S. Lissau, J. M. Gardner and A. Morandeira, "Photon Upconversion on Dye-Sensitized Nanostructured ZrO2 Films," The Journal of Physical Chemistry C, vol. 115, no. 46, pp. 23226-23232, 2011.
[55]
B. H. Farnum, J. M. Gardner and G. J. Meyer, "Flash-Quench Technique Employed To Study the One-Electron Reduction of Triiodide in Acetonitrile : Evidence for a Diiodide Reaction Product," Inorganic Chemistry, vol. 49, no. 22, pp. 10223-10225, 2010.
[56]
J. M. Gardner et al., "Visible Light Generation of Iodine Atoms and I-ˆ’I Bonds : Sensitized I-ˆ’ Oxidation and I3-ˆ’ Photodissociation," Journal of the American Chemical Society, vol. 131, no. 44, pp. 16206-16214, 2009.
[57]
J. M. Gardner, J. M. Giaimuccio and G. J. Meyer, "Evidence for Iodine Atoms as Intermediates in the Dye Sensitized Formation of I-ˆ’I Bonds," Journal of the American Chemical Society, vol. 130, no. 51, pp. 17252-17253, 2008.

Conference papers

[59]
Y. Ma et al., "Application of Eutectic Freeze Crystallization in the Recycling of Li-Ion Batteries," in Rare Metal Technology 2021, 2021, pp. 3-10.

Non-peer reviewed

Articles

[60]
V. Leandri, J. M. Gardner and M. Jonsson, "Reply to "Comment on 'Coumarin as a Quantitative Probe for Hydroxyl Radical Formation in Heterogeneous Photocatalysis'"," The Journal of Physical Chemistry C, vol. 123, no. 33, pp. 20685-20686, 2019.
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2024-11-17 03:44:02