材料导报
材料導報
재료도보
MATERIALS REVIEW
2009年
z2期
303-306
,共4页
綦鹏飞%朱桂茹%王铎%高从楷
綦鵬飛%硃桂茹%王鐸%高從楷
기붕비%주계여%왕탁%고종해
锂锰氧化物%离子筛%吸附
鋰錳氧化物%離子篩%吸附
리맹양화물%리자사%흡부
lithium manganese oxide%ion-sieve%adsorption
尖晶石型锂锰氧化物是目前最具发展前景的锂吸附剂.介绍了锂锰氧化物的合成方法及结构、Li+的抽提/嵌入反应机理和锂离子筛吸附锂过程中的影响因素,讨论了对目前在锂吸附剂的制备及实际应用等方面存在的问题,并展望了锂锰氧化物离子筛未来的研究方向.
尖晶石型鋰錳氧化物是目前最具髮展前景的鋰吸附劑.介紹瞭鋰錳氧化物的閤成方法及結構、Li+的抽提/嵌入反應機理和鋰離子篩吸附鋰過程中的影響因素,討論瞭對目前在鋰吸附劑的製備及實際應用等方麵存在的問題,併展望瞭鋰錳氧化物離子篩未來的研究方嚮.
첨정석형리맹양화물시목전최구발전전경적리흡부제.개소료리맹양화물적합성방법급결구、Li+적추제/감입반응궤리화리리자사흡부리과정중적영향인소,토론료대목전재리흡부제적제비급실제응용등방면존재적문제,병전망료리맹양화물리자사미래적연구방향.
Spinel-type lithium manganese oxide is the most promising lithium adsorbent. The synthesis method and the structure of lithium manganese oxides are described, the Li+ extraction/insertion mechanism is reviewed,and the effect factors of adsorbing lithium are discussed. The synthesis and application of lithium adsorbents are gathered and discussed. Furthermore,promising avenues for further research in this area are expected.