Optimized Lithium Recovery from Brines by using an Electrochemical Ion-Pumping Process Based on λ-MnO2 and Nickel Hexacyanoferrate
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Title
Optimized Lithium Recovery from Brines by using an Electrochemical Ion-Pumping Process Based on λ-MnO2
and Nickel Hexacyanoferrate
Authors
Keywords
-
Journal
ChemElectroChem
Volume 4, Issue 1, Pages 143-149
Publisher
Wiley
Online
2016-09-24
DOI
10.1002/celc.201600509
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Related references
Note: Only part of the references are listed.- Lithium recovery by means of electrochemical ion pumping: a comparison between salt capturing and selective exchange
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- (2014) S. Zandevakili et al. HYDROMETALLURGY
- Synthesis of Iron-Doped Manganese Oxides with an Ion-Sieve Property: Lithium Adsorption from Bolivian Brine
- (2014) Ramesh Chitrakar et al. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
- Lithium availability and future production outlooks
- (2013) Hanna Vikström et al. APPLIED ENERGY
- Synthesis and Adsorption Properties of Li1.6Mn1.6O4 Spinel
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- Lithium: Sources, Production, Uses, and Recovery Outlook
- (2013) Laura Talens Peiró et al. JOM
- Highly selective lithium recovery from brine using a λ-MnO2–Ag battery
- (2013) Jaehan Lee et al. PHYSICAL CHEMISTRY CHEMICAL PHYSICS
- Batteries for lithium recovery from brines
- (2012) Mauro Pasta et al. Energy & Environmental Science
- Porous LiMn2O4 as cathode material with high power and excellent cycling for aqueous rechargeable lithium batteries
- (2011) Qunting Qu et al. Energy & Environmental Science
- Nanochain LiMn2O4 as ultra-fast cathode material for aqueous rechargeable lithium batteries
- (2010) W. Tang et al. ELECTROCHEMISTRY COMMUNICATIONS
- A Stoichiometric Nano-LiMn2O4Spinel Electrode Exhibiting High Power and Stable Cycling
- (2008) Kuthanapillil M. Shaju et al. CHEMISTRY OF MATERIALS
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