L
Lide M. Rodriguez-Martinez
Researcher at University of Cambridge
Publications - 45
Citations - 4813
Lide M. Rodriguez-Martinez is an academic researcher from University of Cambridge. The author has contributed to research in topics: Electrolyte & Perovskite (structure). The author has an hindex of 25, co-authored 45 publications receiving 3666 citations.
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Cation disorder and size effects in magnetoresistive manganese oxide perovskites.
TL;DR: The ferromagnetic-metal-paramagnetic-insulator transition temperature varies as ${T}_m}={T}_{m}(0)\ensuremath{-}p{Q}^{2}$ due to strain fields resulting from ordered or disordered oxygen displacements $Q$ that are parametrized by the statistical mean and variance of the $A$ cation radius, respectively.
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Single lithium-ion conducting solid polymer electrolytes: advances and perspectives
Heng Zhang,Chunmei Li,Michal Piszcz,Estibaliz Coya,Teófilo Rojo,Lide M. Rodriguez-Martinez,Michel Armand,Zhibin Zhou +7 more
TL;DR: A brief overview of synthetic strategies on how to realize single lithium-ion (Li-ion) conducting solid polymer electrolytes (SLIC-SPEs), which have anions covalently bonded to the polymer, inorganic backbone, or immobilized by anion acceptors, are given.
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Electrolyte Additives for Lithium Metal Anodes and Rechargeable Lithium Metal Batteries: Progress and Perspectives.
Heng Zhang,Gebrekidan Gebresilassie Eshetu,Xabier Judez,Chunmei Li,Lide M. Rodriguez-Martinez,Michel Armand +5 more
TL;DR: This Review gives an overview of the various functional additives that are being applied in lithium metal rechargeable batteries and aims to stimulate new avenues for the practical realization of these appealing devices.
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Cycle ageing analysis of a LiFePO4/graphite cell with dynamic model validations: Towards realistic lifetime predictions
Elixabet Sarasketa-Zabala,I. Gandiaga,Egoitz Martinez-Laserna,Lide M. Rodriguez-Martinez,I. Villarreal +4 more
TL;DR: In this paper, a LFP-based Li-ion cell performance degradation was analyzed under different temperature and SOC storage conditions, and the model was able to predict dynamic behaviour close to real operating conditions.
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Ultrahigh Performance All Solid-State Lithium Sulfur Batteries: Salt Anion’s Chemistry-Induced Anomalous Synergistic Effect
Gebrekidan Gebresilassie Eshetu,Xabier Judez,Chunmei Li,Maria Martinez-Ibañez,Ismael Gracia,Oleksandr Bondarchuk,Javier Carrasco,Lide M. Rodriguez-Martinez,Heng Zhang,Michel Armand +9 more
TL;DR: An ultrahigh performance of ASSLSBs is obtained via an anomalous synergistic effect between (fluorosulfonyl)(trifluoromethanesulfonyL)imide anions inherited from the design of lithium salts in SPEs and the polysulfide species formed during the cycling, implying the importance of the molecular structure of lithium salt in ASSLSB and paving a way for future development of safe and cost-effective Li-S batteries.