昭通学院学报
昭通學院學報
소통학원학보
Journal of ZhaoTong University
2015年
5期
25-28
,共4页
张泽俊%王锐%田虹%李启彭%陈崇蕊%李正奎
張澤俊%王銳%田虹%李啟彭%陳崇蕊%李正奎
장택준%왕예%전홍%리계팽%진숭예%리정규
bio-MOFs%介孔金属-有机骨架材料%合成
bio-MOFs%介孔金屬-有機骨架材料%閤成
bio-MOFs%개공금속-유궤골가재료%합성
Bio-MOFs%Mesoporous metal-organic framework material%Synthesis
采用配体逐步替换策略合成一系列介孔金属‐有机骨架材料bio‐M O Fs .这一系列新型M O Fs材料,呈现永久的介孔结构,并且孔径的尺寸约在2.1‐2.9nm范围,比表面积约为2500‐4500m2/g .
採用配體逐步替換策略閤成一繫列介孔金屬‐有機骨架材料bio‐M O Fs .這一繫列新型M O Fs材料,呈現永久的介孔結構,併且孔徑的呎吋約在2.1‐2.9nm範圍,比錶麵積約為2500‐4500m2/g .
채용배체축보체환책략합성일계렬개공금속‐유궤골가재료bio‐M O Fs .저일계렬신형M O Fs재료,정현영구적개공결구,병차공경적척촌약재2.1‐2.9nm범위,비표면적약위2500‐4500m2/g .
A stepwise ligand exchange strategy is utilized to synthetise a series of Metal‐Organic Frameworks materi‐als(bio‐MOFs) .These synthesized crystal materials with progressively larger mesoporous sizes .Each material exhibit permanent mesoporosity and poresizes ranging from 2 .1‐2 .9 nm and surface areas ranging from 2 500to 4 500m2/g .
