高等学校化学学报
高等學校化學學報
고등학교화학학보
CHEMICAL JOURNAL OF CHINESE UNIVERSITIES
2014年
9期
1859-1863
,共5页
何永科%颜岩%杨芬%吴俊标%宋晓伟
何永科%顏巖%楊芬%吳俊標%宋曉偉
하영과%안암%양분%오준표%송효위
亚磷酸锰%离子热合成%晶体结构%磁性
亞燐痠錳%離子熱閤成%晶體結構%磁性
아린산맹%리자열합성%정체결구%자성
Manganese phosphite%Ionothermal synthesis%Crystal structure%Magnetic property
采用离子热法,在保持其它合成因素相同的条件下,仅改变离子液体种类,合成了2例不同结构的开放骨架亚磷酸锰化合物(NH4)2Mn3(HPO3)4(1)和Mn(HPO3)(2),并对其单晶结构进行了解析。化合物1是由MnO6八面体和亚磷酸根构筑成的二维层状结构化合物,其中铵根离子填充在层间平衡骨架电荷;化合物2是由MnO6八面体和亚磷酸根通过共享顶点氧原子连接构筑而成的致密的三维开放骨架。通过扫描电子显微镜( SEM)、X射线单晶结构解析、X射线粉末衍射( XRD)和元素分析( ICP-AES及CHN)对化合物进行了详细表征。化合物1的磁学性质研究结果表明其结构中的的Mn2+间存在较强的反铁磁相互作用。
採用離子熱法,在保持其它閤成因素相同的條件下,僅改變離子液體種類,閤成瞭2例不同結構的開放骨架亞燐痠錳化閤物(NH4)2Mn3(HPO3)4(1)和Mn(HPO3)(2),併對其單晶結構進行瞭解析。化閤物1是由MnO6八麵體和亞燐痠根構築成的二維層狀結構化閤物,其中銨根離子填充在層間平衡骨架電荷;化閤物2是由MnO6八麵體和亞燐痠根通過共享頂點氧原子連接構築而成的緻密的三維開放骨架。通過掃描電子顯微鏡( SEM)、X射線單晶結構解析、X射線粉末衍射( XRD)和元素分析( ICP-AES及CHN)對化閤物進行瞭詳細錶徵。化閤物1的磁學性質研究結果錶明其結構中的的Mn2+間存在較彊的反鐵磁相互作用。
채용리자열법,재보지기타합성인소상동적조건하,부개변리자액체충류,합성료2례불동결구적개방골가아린산맹화합물(NH4)2Mn3(HPO3)4(1)화Mn(HPO3)(2),병대기단정결구진행료해석。화합물1시유MnO6팔면체화아린산근구축성적이유층상결구화합물,기중안근리자전충재층간평형골가전하;화합물2시유MnO6팔면체화아린산근통과공향정점양원자련접구축이성적치밀적삼유개방골가。통과소묘전자현미경( SEM)、X사선단정결구해석、X사선분말연사( XRD)화원소분석( ICP-AES급CHN)대화합물진행료상세표정。화합물1적자학성질연구결과표명기결구중적적Mn2+간존재교강적반철자상호작용。
Two open-framework manganese phosphites, (NH4)2Mn3(HPO3)4(1) and Mn(HPO3)(2), were synthesized under ionothermal conditions and characterized by single crystal X-ray diffraction. The two com-pounds were synthesized under the same conditions, but the structures were different with the use of diffe-rent ionic liquids. The framework structure of compound 1 is built up from MnO6 octahedra and phosphite groups, giving rise to a two-dimensional framework with NH4+ cations filling between the layers;the structure of com-pound 2 consists of a 3D condensed framework of edge-sharing MnO6 octahedra linking to [ HPO3 ] units via oxygens. The compounds were further characterized by scanning electron microscopy(SEM), powder X-ray diffraction( PXRD) and inductively coupled plasma( ICP) , and the magnetic measurements results reveal that strong antiferromagnetic interaction exists in compound 1 .
