Maria R. Lukatskaya
scholar.google.com
0000-0002-2794-4322
ETH Zurich
62 papers found
Refreshing results…
Materials Challenges for Electric Vehicles
Anion effect in electrochemical CO2 reduction: from spectators to orchestrators
Tuning MXene Properties through Cu Intercalation: Coupled Guest/Host Redox and Pseudocapacitance
Robust Battery Interphases from Dilute Fluorinated Cations
Solvation-Tuned Photoacid as a Stable Light-Driven pH Switch for CO2 Capture and Release
Durable Light-Driven pH Switch for CO2 Capture/Release Enabled by Tuning Solvation Environment of Photoacids
Anion Effect in Electrochemical CO2 Reduction: Enhanced Selectivity Enabled Through Anion Modulation
Understanding the effects of transition metal intercalation on electronic and electrochemical properties of Ti3C2Tx MXene
Metal-organic frameworks for fast electrochemical energy storage: Mechanisms and opportunities
Durable Light-Driven pH Switch Enabled by Solvation Environment Tuning of Metastable Photoacids
Creating water-in-salt-like environment using coordinating anions in non-concentrated aqueous electrolytes for efficient Zn plating
Creating water-in-salt-like environment using coordinating anions in non-concentrated aqueous electrolytes for efficient Zn batteries
X-ray radio-enhancement by Ti3C2Tx MXenes in soft tissue sarcoma
What About Manganese? Toward Rocking Chair Aqueous Mn-Ion Batteries
Correction to “Water or Anion? Uncovering the Zn2+ Solvation Environment in Mixed Zn(TFSI)2 and LiTFSI Water-in-Salt Electrolytes”
Correction to “Water-in-Salt LiTFSI Aqueous Electrolytes. 1. Liquid Structure from Combined Molecular Dynamics Simulation and Experimental Studies”
Bottom-Up Design of Configurable Oligomer-Derived Conducting Metallopolymers for High-Power Electrochemical Energy Storage
Toward Unraveling the Origin of Lithium Fluoride in the Solid Electrolyte Interphase
Water or Anion? Uncovering the Zn2+ Solvation Environment in Mixed Zn(TFSI)2 and LiTFSI Water-in-Salt Electrolytes
Can Anions Be Inserted into MXene?
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