Results 181 to 190 of about 108,209 (305)
Techniques such as selective ion exchange can be used to remove traces of heavy metals. The recently created resins provided quicker sorption kinetics and a high resin capacity for metal ions such as Lead (Pb²⁺), Copper (Cu²⁺), Zinc (Zn²⁺), Cadmium (Cd²⁺)
Ansam Qays Jasim, Sata Kathum Ajjam
doaj
Analytical separations using chelating ion exchange and partition chromatography
Donald Henry Schmitt
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Improvement in HPLC fractionation of thyroxine‐containing thyroglobulin tryptic peptides by prior Accell ion‐exchange column chromatography [PDF]
Justa Miguel+5 more
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Purification of bradykinin by ion-exchange chromatography [PDF]
M. Rocha e Silva, Sylvia O. Andrade
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Recent Progress on Cerium Oxide‐Based Nanostructures for Energy and Environmental Applications
This review covers significant aspects, from CeO2's fundamental properties and synthesis methods to specific applications and emerging trends. With unique features such as redox reactivity, biocompatibility, and high oxygen storage, CeO2 is an excellent catalyst for water splitting, CO2 conversion, energy storage, and remediating environmental ...
Schindra Kumar Ray+5 more
wiley +1 more source
Spurious Elevation of Multiple Urine Amino Acids by Ion-Exchange Chromatography in Patients with Prolidase Deficiency. [PDF]
Ferreira CR, Cusmano-Ozog K.
europepmc +1 more source
Determination of carnosine, anserine and balenine in muscle by ion exchange chromatography
Naoyuki NISHIZAWA+2 more
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A green process has been developed utilizing electrochemistry to convert inexpensive, readily available phenol derived from lignin into para‐benzoquinone, a valuable chemical widely used in the manufacturing and chemical industries. For the first time, a novel electrocatalytic oxidation system is achieved with high 96.2% conversion of phenols to para ...
Asad Ali+4 more
wiley +1 more source
Semi-automated system for analysis of vitamin B6 complex by ion-exchange columin chromatography.
Kyoden YASUMOTO+3 more
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Hydrometallurgical recycling of lithium‐ion batteries produces wastewater containing PF6− and Li+, which must be removed and recovered, respectively. This study pioneers electrodialysis using anion exchange membrane and cation exchange membrane to separate PF6− and Li+.
Takuto Miyashita+2 more
wiley +1 more source