J. Ou, I. Senevirathna, V. Tatagari, A. Saleem, C. Segre, and L. Shaw, “Boosting the Ionic Conductivity of Amorphous Oxychloride Solid Electrolytes via Different Degrees of Amorphization,” Energy Materials, 5, 500088 (2025).
J. Ou, V. R. Tatagari, I. Senevirathna, S. Luitel, C. Segre, L. Shaw, and M. H. Braga, “On the Formation and Properties of Amorphous and Crystalline Li3-xBax/2OCl Electrolytes,” J. Power Sources, 609, 234685 (2024).
S.-J. Chiang, J. A. Kaduk, and L. Shaw, “High Ionic Conducting NaSICON Enabled by Mechanical Activation Enhanced Reaction,” Materials Chemistry and Physics, 312, 128656 (2024).
Braga, M. Helena, et al. "Extraordinary dielectric properties at heterojunctions of amorphous ferroelectrics." Journal of the American Chemical Society 140.51 (2018): 17968-17976.
Braga, M. H., et al. "Novel Li3ClO based glasses with superionic properties for lithium batteries." Journal of Materials Chemistry A 2.15 (2014): 5470-5480.
A. Saleem, A. Hussain, B. Jabbar, A. R. Akbar, S. Rauf, M. Kiani, L. Shaw, R. Iqbal, M. K. Majeed, “Boosting Lithium-ion Conductivity of Polymer Electrolyte via Selective Introduction of Covalent Organic Frameworks for Safe Lithium Metal Batteries,” Nano Energy, 128, 109848 (2024).
Braga, Maria Helena, et al. "Nontraditional, safe, high voltage rechargeable cells of long cycle life." Journal of the American Chemical Society 140.20 (2018): 6343-6352.
Braga, Maria H., et al. "Alternative strategy for a safe rechargeable battery." Energy & Environmental Science 10.1 (2017): 331-336.
Braga, M. Helena, et al. "Glass-amorphous alkali-ion solid electrolytes and their performance in symmetrical cells." Energy & Environmental Science 9.3 (2016): 948-954.
M. Ashuri, Q. He, and L. Shaw, “Sodium Chloride Template-Assisted Synthesis of Silicon/Carbon Anode Nanocomposites for Lithium-Ion Batteries,” Future Batteries, 6, 100069 (2025).
A. Saleem, L. Shaw, Z. Chen, and W. Lai, “State-of-the-Art Machine Learning Technology for Sustainable Lithium Battery Cathode Design: A Perspective,” Advanced Energy Materials, 2405300 (2025).
A. Saleem, L. Shaw, Mehwish Khalid Butt, Javed Rehman, Arshad Hussain, Zawar Hussain, Rashid Iqbal, Muhammad Kashif Majeed, “Achieving Dynamic Stability of Single-Crystal Low-Co Ni-Rich Cathode Material for High Performance Lithium Batteries,” J. Mater. Chem. A, 12, 30831–30841 (2024).
A. Saleem, L. Shaw, R. Iqbal, A. Hussain, A. R. Akbar, B. Jabar, S. Rauf, and M. K. Majeed, “Ni-Rich Cathode Evolution: Exploring Electrochemical Dynamics and Strategic Modifications to Combat Degradation,” Energy Storage Mater., 69, 103440 (2024).
M. Luo, B. Liu, V. R. Tatagari, Z. Wang, and L. Shaw, “On the Cycle Stability of Si@void@C Anode: Effects of Electrolytes,” J. Electrochem. Soc., 171, 050555 (2024).
C. Chen, H. Lin, B. Liu, and L. Shaw, “Deconvolution of the Electrochemical Impedance of Na/NaCrO2 Cells with Ester- and Ether-Based Electrolytes,” J. Power Sources, 580, 233465 (2023).
H. Huo, S. Radhakrishnan, L. Shaw, and K. Nemeth, “High-Energy and High-Power Primary Li-CFx Batteries Enabled by the Combined Effects of the Binder and Electrolyte,” Batteries, 9, 268 (2023).
M. Ashuri, Q. He, and L. Shaw, “Silicon Oxides for Li-Ion Battery Anode Applications: Toward Long-Term Cycling Stability,” Journal of Power Sources, 559, 232660 (2023).
C. Chen, V. R. Tatagari, H. Lin, and L. Shaw, “Investigating TEP as a Greener Alternative to NMP in Ni-rich Cathode Fabrication,” Journal of Energy Chemistry, 78, 240-245 (2023).
M. Ashuri, Q. He, and L. Shaw, “Silicon Oxides for Li-Ion Battery Anode Applications: Toward Long-Term Cycling Stability,” Journal of Power Sources, in press.
C. Chen, V. R. Tatagari, H. Lin, and L. Shaw, “Investigating TEP as a Greener Alternative to NMP in Ni-rich Cathode Fabrication,” Journal of Energy Chemistry, 78, 240-245 (2023).
B. Liu, M. Luo, Z. Wang, C. Passolano, and L. Shaw, “On the Specific Capacity and Cycle Stability of Si@void@C Anodes: Effects of Particle Size and Charge/Discharge Protocol,” Batteries, 8, 154 (2022).
M. Luo, M.-T. F. Rodrigues, L. Shaw and D. P. Abraham, “Examining Effects of Negative to Positive Capacity Ratio in 3-Electrode Lithium-ion Cells with Layered Oxide Cathode and Si Anode,” ACS Appl. Energy. Mater., 5 [5] 5513-5518 (2022).
Q. He, M. Ashuri, Y. Liu, B. Liu, and L. Shaw, “Silicon Micro-Reactor as a Fast Charge, Long Cycle Life Anode with High Initial Coulombic Efficiency for Li-ion Batteries,” ACS Appl. Energy Mater., 4 [5] 4744 – 4757 (2021).
M. Ashuri, Q. He, and L. Shaw, “Improving Cycle Stability of Si Anode through Partially Carbonized Polydopamine Coating,” Journal of Electroanalytical Chemistry, 876, 114738 (2020).
C. Chen, W. Yao, Q. He, M. Ashuri, J. Kaduk, Y. Liu, and L. Shaw, “Tunable LiAlO2/Al2O3 Coating through a Wet-Chemical Method to Improve Cycle Stability of Nano-LiCoO2,” ACS Applied Energy Materials, 2, 3098-3113 (2019).
K. Sahni, M. Ashuri, Q. He, R. Sahore, I. D. Bloom, Y. Liu, J. A. Kaduk and L. Shaw, “H3PO4 Treatment to Enhance the Electrochemical Properties of Li(Ni1/3Mn1/3Co1/3)O2 and Li(Ni0.5Mn0.3Co0.2)O2 Cathodes,” Electrochimica Acta, 301, 8-22 (2019).
L. Shaw and M. Ashuri, “Coatings – A Potent Method to Enhance Electrochemical Performance of Li(NixMnyCoz)O2 Cathodes for Li-ion Batteries,” Adv. Mater. Lett., 10 (6), 369-380 (2019).
M. Ashuri, Q. He, Z. Shi, C. Chen, W. Yao, J. Kaduk, C. Segre, and L. Shaw, “Long-Term Cycle Behavior of Nano-LiCoO2 and Its Post-Mortem Analysis,” Journal of Physical Chemistry C, 123, 3299-33.
Z. Shi, Z. Wang, L. Shaw, and M. Ashuri, “On the Electrochemical Properties of Carbon Coated NaCrO2 for Na-ion Batteries,” Batteries, 9, 433 (2023).
J. Wei, L. Shaw and W. Chen, “Mechanism of Cr Migration in Hybrid Layered NaCrO2 Cathode,” Physical Review Materials, 6, 095403 (2022).
M. Luo, A. L. Ortiz, and L. Shaw, “Enhancing the Electrochemical Performance of NaCrO2 through Structural Defect Control,” ACS Appl. Energy Mater., 3 [7] 7216-7227 (2020).
J. Wei, L. Shaw and W. Chen, “First-Principles Prediction of Na Diffusivity in Doped NaCrO2 Layered Cathode Materials with Van der Waals Interactions,” J. Phys. Chem. C, 124, 12239 – 12248 (2020).
M. Luo, A. L. Ortiz, and L. Shaw, “Unraveling Processing-Structure-Electrical Conductivity Relationships of NaCrO2 Cathodes for Na-ion Batteries,” J. Electrochem. Soc., 166 (15) A3546-A3553 (2019).
M. Luo, A. L. Ortiz, F. Guo, Z. Shi, L. Li, Y. Ren, X. Zhang, Z. Chen, L. Shaw, and W. Chen, “Mechanical Activation Enhanced Solid-State Synthesis of NaCrO2 Cathode Material,” Materialia, 5, 100172 (2019).