Publication

1. "Extreme lithium-metal cycling enabled by a mixed ion-and electron-conducting garnet three-dimensional architecture" George V Alexander, C Shi, Jon O’Neill, E D Wachsman. Nature Materials 22 (2023) 1136-1143.


2. "Toward Solid-State Li-Air Batteries; An SOFC Perspective of Solid 3D Architectures, Heterogeneous Interfaces, and Oxygen Exchange Kinetics" E D Wachsman, George Alexander, R Moores, G Scisco, C Tang, M Danner. Faraday Discussion (2023) 


3. "All-Solid-State Garnet Type Sulfurized Polyacrylonitrile/Lithium-Metal Battery Enabled by an Inorganic Lithium Conductive Salt and a Bilayer Electrolyte Architecture" C. Shi, George V Alexander, Jon O' Neill, K Duncan, G Godbey, E D Wachsman. ACS Energy Letters 8 (2023) 1803-1810.


4. " 3D Asymmetric Bilayer Garnet-Hybridized High-Energy-Density Lithium–Sulfur Batteries" C. Shi, T. Hamann, S. Takeuchi, George V Alexander.....J A Dura, E D Wachsman, ACS Applied Materials and Interfaces 15 (2023) 751-760.


5. “Review on the critical issues for the realization of all-solid-state lithium metal batteries with garnet electrolyte: interfacial chemistry, dendrite growth and critical current densities ” George V. Alexander, Indu M.S, Murugan R. Ionics 27 (2021) 4105-4126.


6. “Lithium Garnet-Cathode Interfacial Chemistry: Inclusive Insights and Outlook Towards Practical Solid-State Lithium Metal Batteries ” Indu M.S, George V. Alexander, Sreejith O.V, Sona Elsin Abraham, Murugan R. Materials Today Energy 21 (2021) 100804.



7. “Electrochemical characteristics of Ge incorporated Li4Ti5O12 as an anode for Li-ion battery application ”Sreejith O.V, Indu M.S, George V. Alexander, Murugan R. Materials Today Communication 27 (2021) 102273.



8. “A brief review of recent advances in garnet structured solid electrolytes for solid state lithium metal batteries ” Kannan Subramanian, George V. Alexander, K. Karthik, Srabani Patra, Indu M.S, Sreejith O.V, Raja Viswanathan, Janani Narayanasamy, Murugan R. Journal of Energy Storage 33 (2021) 102157.



9. “Interface-compatible and high capacity lithiophilic lithium-zinc alloy anode for garnet-structured solid electrolyte ” George V. Alexander, Sreejith O.V, Indu M.S, Murugan R. ACS Applied Energy Materials 3 (2020) 9010-9017.



10. “Development of stable and conductive interface  between garnet structured solid electrolyte and lithium metal anode for high performance solid-state battery ” George V. Alexander, M.S Indu, Selvajyothi Kamakshy, Murugan R. Electrochimica Acta 332 (2020) 135511.



11. “Electrochemical Performance of Garnet solid-electrolyte based Lithium Metal Battery with Interface Modification. ” George V. Alexander, Rosero-Navarro NC, Miura A, Tadanaga K, Murugan R, Journal of Materials Chemistry A 6 (2018): 21018-21028.



12. “Effective Electrodes-Electrolyte Interfacial Engineering for Realizing Room Temperature High Energy Density Lithium Metal Battery based on Garnet Structured Solid Fast Li+ Conductors. ”  George V. Alexander, Patra S, Raj SV, Sugumar MK, Din MM, Murugan R. Journal of Power Sources 396 (2018): 764-773.



13. “Realization of room temperature lithium metal battery with high Li+ conductive lithium garnet solid electrolyte. ” M.S Indu, George V. Alexander Murugan R. Ceramic International 45 (2019) 22610-22616.



14. “ Interface Engineering for Lithium Metal Batteries Based on Garnet Structured Solid Fast Lithium-ion conductors. ” Mir Mehraj Ud Din, George V. Alexander, Ramaswamy Murugan, Book Name: Solid Electrolytes for Advanced Applications. Publisher: Springer Nature, ISBN No: 978-3-030-31580-1.