Synthesis of High Specific Surface Lithium-Ion Sieve Templated by Bacterial Cellulose for Selective Adsorption of Li+

In recent years, with the development of batteries, ceramics, glass and other industries, the demand for lithium has increased rapidly. Due to the rich lithium resources in seawater and salt-lake brine, the question of how to selectively adsorb and separate lithium ions from such brine has attracted the attention and research of many scholars. The Li-ion sieve stands out from other methods thanks to its excellent special adsorption and separation performance. In this paper, mesoporous titanium dioxide and lithium hydroxide were prepared by hydrothermal reaction using bacterial cellulose as a biological template. After calcination at 600 degrees C, spinel lithium titanium oxide Li2TiO3 was formed. The precursor was eluted with HCl eluent to obtain H2TiO3. The lithium titanate were characterized by IR, SEM and X-ray diffraction. The adsorption properties of H2TiO3 were studied by adsorption pH, adsorption kinetics, adsorption isotherm and competitive adsorption. The results show that H2TiO3 has a single-layer chemical adsorption process, and has a good adsorption effect on lithium ions at pH 11.0, with a maximum adsorption capacity of 35.45 mg g(-1). The lithium-ion sieve can selectively adsorb Li+, and its partition coefficient is 2242.548 mL g(-1). It can be predicted that the lithium-ion sieve prepared by biological template will have broad application prospects.

Automated summary

With the development of batteries, ceramics, glass and other industries, the demand for lithium has increased rapidly. In this paper, a lithium-ion sieve was prepared using bacterial cellulose as a biological template. The sieve exhibited excellent adsorption and separation performance for lithium ions, with a maximum adsorption capacity of 35.45 mg g(-1) at pH 11.0. The lithium-ion sieve can selectively adsorb Li+, making it a promising material for various applications.