全文下载: 202102009.pdf
文章编号: 1672-6987(2021)02-0066-07; DOI: 10.16351/j.1672-6987.2021.02.009
孟祥坤, 贺帅, 刘银凤, 尹民, 钟立梅, 林润雄, 董殿权*(青岛科技大学 化工学院,山东 青岛 266042)
摘要: 以自制的氢氧化钛和乙酸锂为原料,掺入少量乙酸铈,用高温固相法焙烧得到掺杂型锂钛复合氧化物(LTCO),经01 mol·L-1盐酸浸渍酸改型制备出锂离子筛(HTCO)。经X射线衍射仪(XRD)、扫描电子显微镜(SEM)及离子筛选择吸附性能测试,考察了离子筛的晶相、形貌及选择性。结果表明:在750 ℃下焙烧得到的离子筛为尖晶石结构,晶相较纯,颗粒大小均匀,盐酸浸渍后酸改率为8660%,且酸改型前后晶型及表面颗粒形貌保持不变;离子筛的饱和吸附容量为4437 4 mmol·g-1,在单一离子溶液中以及混合离子溶液中均表现出对Li+较高的吸附性能,经过5次循环吸脱附试验后,离子筛对锂离子的吸附性能为4365 2 mmol·g-1,说明HTCO离子筛具有优良的稳定性及选择吸附性能。
关键词: 固相法; 掺杂; 锂离子筛; 饱和吸附容量; 选择性
中图分类号: TQ 131.1; TQ 028.3+3文献标志码: A
引用格式: 孟祥坤, 贺帅, 刘银凤, 等. 固相法合成掺杂型锂钛系离子筛及其吸附性能[J]. 青岛科技大学学报(自然科学版), 2021, 42(2): 66-72.
MENG Xiangkun, HE Shuai, LIU Yinfeng, et al. Solid-state synthesis of doped lithium-titanium ion-sieve and its absorption properties[J]. Journal of Qingdao University of Science and Technology(Natural Science Edition), 2021, 42(2): 66-72.
Solid-state Synthesis of Doped Lithium-Titanium Ion-sieve
and Its Absorption Properties
MENG Xiangkun, HE Shuai, LIU Yinfeng, YIN Min, ZHONG Limei, LIN Runxiong, DONG Dianquan
(College of Chemical Engineering, Qingdao University of Science and Technology, Qingdao 266042,China)
Abstract: High temperature solid state method was used to synthesize doped lithium titanium composite oxides (LTCO) by grinding self-preparation titanium hydroxide, lithium acetate and a few amount acetate and calcination process (HTCO). After pickling process by 01 mol·L-1 hydrochloric acid solution, LTCO transformed to the lithium ion sieve. We investigated the crystalline phase and morphology and the selection capacity of ion sieve by XRD, SEM techniques and the test of selective adsorption performance. The result showed that ion sieve calcined at 750 ℃ had spinel structure, pure crystal phase and uniform particle sizes,and the acid-modification rate was up to 8660%, besides the crystalline phase and morphology had still remained. Moreover, it had good adsorption performance for Li+ in the single ion solution and the mixed ion solution,and the saturation adsorption capacity was up to 4437 4 mmol·g-1. Therefore, the ion sieve had excellent stability and selective adsorption capacity for Li+ adsorption. After 5 cycles, the adsorption performance of ion sieve for lithium ions was 4365 2 mmol·g-1, which showed that HTCO ion sieve had excellent stability and selective adsorption performance.
Key words: solid method; doped; lithium ion sieve; saturation adsorption capacity; selective
收稿日期: 2020-04-07
基金项目: 国家自然科学基金资助项目(51272114);山东省重点研发计划项目(2019GGX102034);青岛科技大学引进人才科研启动资金资助项目(00223222).
作者简介: 孟祥坤(1994—),女,硕士研究生.*通信联系人.