2022
DOI: 10.1016/j.cjche.2021.05.009
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Recovery of lithium using H4Mn3.5Ti1.5O12/reduced graphene oxide/polyacrylamide composite hydrogel from brine by Ads-ESIX process

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Cited by 7 publications
(1 citation statement)
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“…While each kind of adsorbent has its own set of benefits and drawbacks, the combined composite may have some distinct advantages. In order to extract lithium from a solution of 200 mg/L, Cui et al [116] developed a hydrogel composite of H 4 Mn 3.5 Ti 1.5 O 12 /reduced graphene oxide/polyacrylamide (HMTO-rGO/PAM) with an adsorption capacity of 51.5 mg/g. Fumihiko Ohashi and Yutaka Tai were the first to produce surface-modified adsorbents, treating Li 1.33 Mn 1.67 O 4 with transition metal oxide oligomers.…”
Section: Titanium Derived Adsorbentmentioning
confidence: 99%
“…While each kind of adsorbent has its own set of benefits and drawbacks, the combined composite may have some distinct advantages. In order to extract lithium from a solution of 200 mg/L, Cui et al [116] developed a hydrogel composite of H 4 Mn 3.5 Ti 1.5 O 12 /reduced graphene oxide/polyacrylamide (HMTO-rGO/PAM) with an adsorption capacity of 51.5 mg/g. Fumihiko Ohashi and Yutaka Tai were the first to produce surface-modified adsorbents, treating Li 1.33 Mn 1.67 O 4 with transition metal oxide oligomers.…”
Section: Titanium Derived Adsorbentmentioning
confidence: 99%