工程科学学报
工程科學學報
공정과학학보
Journal of University of Science and Technology Beijing
2015年
11期
1485-1490
,共6页
梁小红%赵轩%邱国飞%贾晓明
樑小紅%趙軒%邱國飛%賈曉明
량소홍%조헌%구국비%가효명
硫化锌%纳米晶%薄膜%纤锌矿结构%制备%光催化
硫化鋅%納米晶%薄膜%纖鋅礦結構%製備%光催化
류화자%납미정%박막%섬자광결구%제비%광최화
zinc sulfide%nanocrystals%thin films%wurtzite structure%synthesis%photocatalysis
通过控制硫化锌室温成核反应在油-水液-液界面处进行,并采用羟基端基自组装分子层修饰的聚合物膜作为柔性衬底,最终在衬底表面制得硫化锌纳米晶膜. X射线衍射表征显示产物为高温稳定的纤锌矿结构. 扫描电镜和透射电镜观察发现硫化锌膜由粒径30~50 nm的颗粒构成. 产物对甲基橙的光催化降解研究证实在紫外光辅助下硫化锌纳米晶膜对有机物的降解能力. 鉴于上述结果,提出了一种结合油-水液-液界面及自组装分子层功能化的衬底,在室温且无添加剂条件下一步制备高温稳定相ZnS功能膜的方法,并分析了产物形貌与光催化性能间的关系.
通過控製硫化鋅室溫成覈反應在油-水液-液界麵處進行,併採用羥基耑基自組裝分子層脩飾的聚閤物膜作為柔性襯底,最終在襯底錶麵製得硫化鋅納米晶膜. X射線衍射錶徵顯示產物為高溫穩定的纖鋅礦結構. 掃描電鏡和透射電鏡觀察髮現硫化鋅膜由粒徑30~50 nm的顆粒構成. 產物對甲基橙的光催化降解研究證實在紫外光輔助下硫化鋅納米晶膜對有機物的降解能力. 鑒于上述結果,提齣瞭一種結閤油-水液-液界麵及自組裝分子層功能化的襯底,在室溫且無添加劑條件下一步製備高溫穩定相ZnS功能膜的方法,併分析瞭產物形貌與光催化性能間的關繫.
통과공제류화자실온성핵반응재유-수액-액계면처진행,병채용간기단기자조장분자층수식적취합물막작위유성츤저,최종재츤저표면제득류화자납미정막. X사선연사표정현시산물위고온은정적섬자광결구. 소묘전경화투사전경관찰발현류화자막유립경30~50 nm적과립구성. 산물대갑기등적광최화강해연구증실재자외광보조하류화자납미정막대유궤물적강해능력. 감우상술결과,제출료일충결합유-수액-액계면급자조장분자층공능화적츤저,재실온차무첨가제조건하일보제비고온은정상ZnS공능막적방법,병분석료산물형모여광최화성능간적관계.
Room-temperature synthesis of ZnS was controlled at the oil- water liquid- liquid interface. Combining with polymer films which were modified by hydroxyl-terminated self-assembled monolayers ( SAMs) as flexible substrates, nanocrystalline ZnS films were fabricated on the substrates. X-ray diffraction analysis indicates that the ZnS films have a hexagonal wurtzite structure, which is the high-temperature polymorph of sphalerite. Scanning electron microscopy and transmission electron microscopy observations show that the ZnS films consist of nanoparticles with the diameter of 30-50 nm. Photocatalytic degradation of methyl orange by these prod-ucts under UV-light irradiation was observed, which confirmed the photocatalytic degradation ability of the nanocrystalline ZnS films to organics. In view of the results, a facile one-step method, combining the oil- water interface with the SAMs-modified substrate, was proposed for fabricating the wurtzite ZnS functional films without any additive at room temperature. The relationship between photocata-lytic performance and the morphology of the products was also discussed.