STUDY OF THE INSERTION AND EXTRACTION MECHANISM OF Li3Mn0.5Ti0.25O3
The metal oxide [Li3Mn0.5Ti0.25O3] was synthesized by solid state reaction crystallization method in certain temperature. It was an inverse spinel type compound metal oxide. The extraction/insertion reaction of this material was studied by X-ray, saturation exchange capacity value and distribution c...
Saved in:
| Main Authors: | , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
Alma Mater Publishing House "Vasile Alecsandri" University of Bacau
2017-12-01
|
| Series: | Scientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry |
| Subjects: | |
| Online Access: | http://pubs.ub.ro/?pg=revues&rev=cscc6&num=201704&vol=4&aid=4640 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1850226110531371008 |
|---|---|
| author | JINHE JIANG FANGWANG LIU |
| author_facet | JINHE JIANG FANGWANG LIU |
| author_sort | JINHE JIANG |
| collection | DOAJ |
| description | The metal oxide [Li3Mn0.5Ti0.25O3] was synthesized by solid state reaction crystallization method in certain temperature. It was an inverse spinel type compound metal oxide. The extraction/insertion reaction of this material was studied by X-ray, saturation exchange capacity value and distribution coefficient (Kd) measurement value. In terms of its composition and chemical metrology, this inverse spinel material is very comprehensive; it is worth noting that it can be inserted or extracted by other substitutional ions and changes in lithium and oxygen stoichiometry while maintaining their crystal structure. The metal oxide [Li3Mn0.5Ti0.25O3] is inorganic Li+ exchanger which has an ion-memory capacity. It has high exchange selectivity ability for Li+. This metal oxide can be used to separate or extract Li+ in aqueous solution. The experimental result has confirmed inverse spinel type compound metal oxide which was treated by acid could attain 9.7 mmol‧g-1 Li+ exchanged capacity. |
| format | Article |
| id | doaj-art-52a1e147b2404ec589da4e01267d3c12 |
| institution | OA Journals |
| issn | 1582-540X 1582-540X |
| language | English |
| publishDate | 2017-12-01 |
| publisher | Alma Mater Publishing House "Vasile Alecsandri" University of Bacau |
| record_format | Article |
| series | Scientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry |
| spelling | doaj-art-52a1e147b2404ec589da4e01267d3c122025-08-20T02:05:10ZengAlma Mater Publishing House "Vasile Alecsandri" University of BacauScientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry1582-540X1582-540X2017-12-01184449454STUDY OF THE INSERTION AND EXTRACTION MECHANISM OF Li3Mn0.5Ti0.25O3JINHE JIANG 0FANGWANG LIU1Weifang University, Department of Chemistry and Chemical Engineering, 261061, Weifang, China Qingdao University of Science and Technology, Department of Chemical Engineering, 266000, Qingdao, China The metal oxide [Li3Mn0.5Ti0.25O3] was synthesized by solid state reaction crystallization method in certain temperature. It was an inverse spinel type compound metal oxide. The extraction/insertion reaction of this material was studied by X-ray, saturation exchange capacity value and distribution coefficient (Kd) measurement value. In terms of its composition and chemical metrology, this inverse spinel material is very comprehensive; it is worth noting that it can be inserted or extracted by other substitutional ions and changes in lithium and oxygen stoichiometry while maintaining their crystal structure. The metal oxide [Li3Mn0.5Ti0.25O3] is inorganic Li+ exchanger which has an ion-memory capacity. It has high exchange selectivity ability for Li+. This metal oxide can be used to separate or extract Li+ in aqueous solution. The experimental result has confirmed inverse spinel type compound metal oxide which was treated by acid could attain 9.7 mmol‧g-1 Li+ exchanged capacity.http://pubs.ub.ro/?pg=revues&rev=cscc6&num=201704&vol=4&aid=4640insertion and extraction rateion-exchange mechanisminverse spinel typemetal oxide Li3Mn0.5Ti0.25O3selective capability |
| spellingShingle | JINHE JIANG FANGWANG LIU STUDY OF THE INSERTION AND EXTRACTION MECHANISM OF Li3Mn0.5Ti0.25O3 Scientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry insertion and extraction rate ion-exchange mechanism inverse spinel type metal oxide Li3Mn0.5Ti0.25O3 selective capability |
| title | STUDY OF THE INSERTION AND EXTRACTION MECHANISM OF Li3Mn0.5Ti0.25O3 |
| title_full | STUDY OF THE INSERTION AND EXTRACTION MECHANISM OF Li3Mn0.5Ti0.25O3 |
| title_fullStr | STUDY OF THE INSERTION AND EXTRACTION MECHANISM OF Li3Mn0.5Ti0.25O3 |
| title_full_unstemmed | STUDY OF THE INSERTION AND EXTRACTION MECHANISM OF Li3Mn0.5Ti0.25O3 |
| title_short | STUDY OF THE INSERTION AND EXTRACTION MECHANISM OF Li3Mn0.5Ti0.25O3 |
| title_sort | study of the insertion and extraction mechanism of li3mn0 5ti0 25o3 |
| topic | insertion and extraction rate ion-exchange mechanism inverse spinel type metal oxide Li3Mn0.5Ti0.25O3 selective capability |
| url | http://pubs.ub.ro/?pg=revues&rev=cscc6&num=201704&vol=4&aid=4640 |
| work_keys_str_mv | AT jinhejiang studyoftheinsertionandextractionmechanismofli3mn05ti025o3 AT fangwangliu studyoftheinsertionandextractionmechanismofli3mn05ti025o3 |