ProjectUsing dielectric spectroscopy to study the ionic conductivity of battery materials in situ
EducationPDF, UIUC, United States 2019-2020
Ph. D., Chemistry, McGill University, Canada 2013-2019 B.Sc., Chemistry, USNA, United States 2003-2007 AwardsNSERC-CREATE ISS Scholarship, McGill University, 01/2015-01/2017
PublicationsSavignac, L; Danis, A.S; Charbonneau, M; Schougaard, S.B. Valorization of Carbon Fiber Waste from the Aeronautics Sector: An Application in Li-ion Batteries. Green Chemistry. 2021, Accepted manuscript.
Danis, A.S., Mauzeroll, J. Chapter 13: Electrogenerated chemiluminescence and Photoelectrochemistry. In Electrochemistry for Bioanalysis; Gayathri, S., Elsevier: Amsterdam, 2021; p.285-306 Watkins, T.; Counihan, M. J.; Sarbapalli, D.; Danis, A.S.; Zhang, J.; Zhang, L.; Rodriguez-Lopez, J; Zavadil, K. A Combined SECM and Electrochemical AFM Approach to Probe Interfacial Processes Affecting Molecular Reactivity at Redox Flow Battery Electrodes. J. Mater. Chem. A. 2020, 8, 15734-15745. Jiang, X.; Laffoon, S.D.; Chen, D.; Perez-Estrada, S.; Danis, A.S.; Rodriguez-Lopes, J.; Garcia-Garibay, M. A.; Zhu, J.; Moore, J. S. Kinetic Control in the Synthesis of a Mobius Tris((ethynyl)[5]helicene) Macrocycle Using Alkyne Metathesis. J. Am. Chem. Soc. 2020, 142, 14, 6493-6498. Danis, A.S.; Metera, K.L, Payne, N.A., Sleiman, H.F., Mauzeroll, J. Bottom-Up Characterization and Self-Assembly of Electrogenerated Chemiluminescence Active Ruthenium Nanospheres. ChemElectroChem 2019, 6, 3499. Danis A., Gordon J.B., Karlie P.P., Stephens L.I., Perry S.C., Mauzeroll J. (2019) Simultaneous Electrochemical and Emission Monitoring of Electrogenerated Chemiluminescence through Instrument Hyphenation. Anal. Chem., 91(3), 2312–2318. Danis A.S., Potts K.P., Perry S.C., Mauzeroll J. (2018) Combined Spectroelectrochemical and Simulated Insights into the Electrogenerated Chemiluminescence Coreactant Mechanism. Anal. Chem., 90(12), 7377–7383. Danis A., Odette W., Perry S.C., Sylvain C., Sleiman H., Mauzeroll J. (2017) Cuvette–Based Electrogenerated Chemiluminescence Detection System for the Assessment of Polymerizable Ruthenium Luminophores. ChemElectroChem. 4(7), 1736–1743. Oral PresentationsA. Danis, K. Potts, S. Perry, and J. Mauzeroll (2018) Combined Spectroelectrochemical and Simulated Insights into the Electrogenerated Chemiluminescence Coreactant Mechanism. 8th ECS Montreal Student Symposium, Montreal, Quebec, June 15th, 2018.
A. Danis, W. Odette, S. Perry, C. Sylvain, H. Sleiman, J. Mauzeroll, (2017) Cuvette-Based Electrogenerated Chemiluminescence Detection System for the Assessment of Polymerizable Ruthenium Luminophores. 100th CSC, Toronto, Ontario, May 31st, 2017. A. Danis and J. Mauzeroll (2016) Signal Enhancement Strategies for Electrogenerated Chemiluminescence Assays. 6th ECS Montreal Student Symposium, Montreal, Quebec, June 10th, 2016. Poster PresentationsA. Danis, K. Hatfield, M. Counihan, J. Rodriguez-Lopez, (2020) Raman-Scanning Electrochemical Microscopy (SECM) Investigation of Interfacial Processes Underlying Redox Flow Battery Electrodes. Pittcon, Chicago, Illinois, March 4th 2020.
A. Danis, M. Counihan, D. Sarbapalli, J. Rodriguez-Lopez, (2019) Raman-Scanning Electrochemical Microscopy Investigation of Interfacial Processes Underlying Redox Flow Battery Electrodes. Turkey Run Analytical Conference, Marshall, Indiana, September 27th 2019. A. Danis, W. Odette, S. Perry, C. Sylvain, H. Sleiman, J. Mauzeroll, (2017) Cuvette-Based Electrogenerated Chemiluminescence Detection System for the Assessment of Polymerizable Ruthenium Luminophores. 7th ECS Montreal Student Symposium, Montreal, Quebec, May 26th, 2017. |