无机化学学报
無機化學學報
무궤화학학보
JOURNAL OF INORGANIC CHEMISTRY
2009年
11期
1912-1916
,共5页
张秀玲%高帅%袁学德%李学慧
張秀玲%高帥%袁學德%李學慧
장수령%고수%원학덕%리학혜
等离子体%磁载TiO_2%光催化剂
等離子體%磁載TiO_2%光催化劑
등리자체%자재TiO_2%광최화제
plasma%magnetically separable TiO_2%photocatalyst
以化学共沉法制备的CoFe_2O_4纳米粒子为磁核,采用TiCl_4水解包覆技术制备磁载二氧化钛纳米复合粒子CoFe_2O_4/TiO_x(TCF),利用低温等离子体技术修饰TCF制备了CoFe_2O_4/TiO_2(PTCF)纳米复合光催化剂.运用VSM(振动样品磁强计)技术对样品磁性能进行研究,结果表明:等离子体修饰后的复合材料仍具有较高的饱和磁化强度,可在外加磁场作用下实现催化剂在水中的分离与回收;样品的XRD、TEM和UV-Vis分析测试结果表明:等离子体修饰后的复合材料有锐钛矿型TiO_2存在;TEM谱图显示磁核CoFe_2O_4的平均粒径约为20 nm,TCF复合粒子的粒径约为30~40 nm,TiO_2包覆层的厚度为10~20 nm.与纯TiO_2相比PTCF样品对光的吸收拓展到整个紫外-可见区,扩大了光谱响应范围;对甲基橙溶液降解的光催化活性评价研究表明:TCF复合粒子等离子体修饰后的PTCF纳米复合光催剂的光催化活性明显提高.
以化學共沉法製備的CoFe_2O_4納米粒子為磁覈,採用TiCl_4水解包覆技術製備磁載二氧化鈦納米複閤粒子CoFe_2O_4/TiO_x(TCF),利用低溫等離子體技術脩飾TCF製備瞭CoFe_2O_4/TiO_2(PTCF)納米複閤光催化劑.運用VSM(振動樣品磁彊計)技術對樣品磁性能進行研究,結果錶明:等離子體脩飾後的複閤材料仍具有較高的飽和磁化彊度,可在外加磁場作用下實現催化劑在水中的分離與迴收;樣品的XRD、TEM和UV-Vis分析測試結果錶明:等離子體脩飾後的複閤材料有銳鈦礦型TiO_2存在;TEM譜圖顯示磁覈CoFe_2O_4的平均粒徑約為20 nm,TCF複閤粒子的粒徑約為30~40 nm,TiO_2包覆層的厚度為10~20 nm.與純TiO_2相比PTCF樣品對光的吸收拓展到整箇紫外-可見區,擴大瞭光譜響應範圍;對甲基橙溶液降解的光催化活性評價研究錶明:TCF複閤粒子等離子體脩飾後的PTCF納米複閤光催劑的光催化活性明顯提高.
이화학공침법제비적CoFe_2O_4납미입자위자핵,채용TiCl_4수해포복기술제비자재이양화태납미복합입자CoFe_2O_4/TiO_x(TCF),이용저온등리자체기술수식TCF제비료CoFe_2O_4/TiO_2(PTCF)납미복합광최화제.운용VSM(진동양품자강계)기술대양품자성능진행연구,결과표명:등리자체수식후적복합재료잉구유교고적포화자화강도,가재외가자장작용하실현최화제재수중적분리여회수;양품적XRD、TEM화UV-Vis분석측시결과표명:등리자체수식후적복합재료유예태광형TiO_2존재;TEM보도현시자핵CoFe_2O_4적평균립경약위20 nm,TCF복합입자적립경약위30~40 nm,TiO_2포복층적후도위10~20 nm.여순TiO_2상비PTCF양품대광적흡수탁전도정개자외-가견구,확대료광보향응범위;대갑기등용액강해적광최화활성평개연구표명:TCF복합입자등리자체수식후적PTCF납미복합광최제적광최화활성명현제고.
A core-shell CoFe_2O_4/TiO_2 magnetic nano-photocatalyst was prepared by hydrolysis of titanium tetrachlor-ide in the presence of the CoFe_2O_4 magnetic particles and modified by cold plasma. The magnetic property of the samples was characterized by Vibrating Sample Magnetometer (VSM) analysis. The CoFe_2O_4/TiO_2 magnetic nano-photocatalysts has fairly good magnetic property. The X-ray diffraction (XRD), transmission electron microscopy (TEM) and ultraviolet-visible (UV-Vis) technique were used to analyze the phase structure, size and spectrum response scope of the samples. The XRD indicated the anatase TiO_2 was formed when TCF modified by plasma. The size of CoFe_2O_4particles was about 20 nm. The diameter of CoFe_2O_4/TiO_2 particles is in the range of 30~40 nm. So the shell of TiO_2 enwraps closely around the core and the thickness is in the range of 10~20 nm. The UV-Vis spectrum revealed a red shift of the absorption edge to the visible-light region than that pure TiO_2. Methyl orange was used to investigate the photo-degradation activity of the nano-photocatalysts. The results showed that the photocatalytic activity of TCF modified by plasma is better than that without plasma.
