Journal
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
Volume 133, Issue 24, Pages 9516-9525Publisher
AMER CHEMICAL SOC
DOI: 10.1021/ja202053q
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Funding
- DFG [DE 412/39-1]
- Russian Federal Grant-in-Aid Contracts [02.740.11.0326, 16.513.11.3033]
- St. Petersburg State University [3.37.84.2011]
- DESY [I-20100085]
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LHT-9, a layered hydrazinium titanate with an interlayer spacing of similar to 9 angstrom, is a new nanohybrid compound combining the redox functionality of hydrazine, the ion-exchange properties of layered titanate, the large surface area of quasi-two-dimensional crystallites, surface Bronsted acidity, and the occurrence of surface titanyl bonds. LHT-9, ideally formulated as (N2H5)(1/2)Ti1.87O4, relates to a family of lepidocrocite-type titanates. It possesses a high uptake capacity of similar to 50 elements of the periodic table. Irreversibility of reductive adsorption allows LHT-9 to be used for cumulative extraction of reducible moieties (noble metals, chromate, mercury, etc.) from industrial solutions and wastewaters. Unlike sodium titanates that do not tolerate an acidic environment, LHT-9 is capable of uptake of transition metals and lanthanides at pH > 3. Adsorption products loaded with the desired elements retain their layered structures and can be used as precursors for tailored titanium dioxide nanomaterials. In this respect, the uptake of metal ions by LHT-9 can be considered as a method complementary to electrostatic self-assembly deposition (ESD) and layer-by-layer self-assembly (LBL) techniques. LHT-9 is readily synthesized in one step by a mild fluoride route involving hydrazine-induced hydrolysis of hexafluorotitanic acid under near-ambient conditions.
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