功能材料
功能材料
공능재료
Journal of Functional Materials
2015年
18期
18078-18082
,共5页
江学良%孙刚%张玉婷%张姣%余露
江學良%孫剛%張玉婷%張姣%餘露
강학량%손강%장옥정%장교%여로
硫掺杂%TiO2%空心球%光催化%甲醛
硫摻雜%TiO2%空心毬%光催化%甲醛
류참잡%TiO2%공심구%광최화%갑철
sulfur doped%titanium dioxide%hollow spheres%photocatalysis%methanal
以聚苯乙烯-丙烯酸羟乙酯共聚(P (St-HEA))微球为模板、钛酸四丁酯和硫脲为主要原料,制备了硫掺杂二氧化钛(S-TiO2)空心球,采用扫描电子显微镜(SEM)、透射电子显微镜(TEM)、X 射线衍射仪(XRD)和X光电子能谱(XPS)表征产物的形貌、晶型以及硫元素的掺杂状态,并以甲醛溶液模拟废水,研究了S-TiO2空心球的紫外光催化性能.结果表明,煅烧去除了 P(St-HEA)微球模板,成功得到 TiO2空心球,硫元素掺杂对TiO2空心球的粒径和形貌影响不大.S-TiO2空心球锐钛矿型晶粒的尺寸缩小,晶型由纯的锐钛矿型转化为锐钛矿/金红石型混合晶型.硫脲引入的硫离子,以S4+状态取代 TiO2晶粒中的 Ti4+离子,形成 Ti1-x Sx O2固溶体.S-TiO2空心球光催化性能优于TiO2空心球,且空心球的光催化性能优于粉体P25.S-TiO2空心球在紫外光下照射2 h,降解甲醛的催化效率为60%.
以聚苯乙烯-丙烯痠羥乙酯共聚(P (St-HEA))微毬為模闆、鈦痠四丁酯和硫脲為主要原料,製備瞭硫摻雜二氧化鈦(S-TiO2)空心毬,採用掃描電子顯微鏡(SEM)、透射電子顯微鏡(TEM)、X 射線衍射儀(XRD)和X光電子能譜(XPS)錶徵產物的形貌、晶型以及硫元素的摻雜狀態,併以甲醛溶液模擬廢水,研究瞭S-TiO2空心毬的紫外光催化性能.結果錶明,煅燒去除瞭 P(St-HEA)微毬模闆,成功得到 TiO2空心毬,硫元素摻雜對TiO2空心毬的粒徑和形貌影響不大.S-TiO2空心毬銳鈦礦型晶粒的呎吋縮小,晶型由純的銳鈦礦型轉化為銳鈦礦/金紅石型混閤晶型.硫脲引入的硫離子,以S4+狀態取代 TiO2晶粒中的 Ti4+離子,形成 Ti1-x Sx O2固溶體.S-TiO2空心毬光催化性能優于TiO2空心毬,且空心毬的光催化性能優于粉體P25.S-TiO2空心毬在紫外光下照射2 h,降解甲醛的催化效率為60%.
이취분을희-병희산간을지공취(P (St-HEA))미구위모판、태산사정지화류뇨위주요원료,제비료류참잡이양화태(S-TiO2)공심구,채용소묘전자현미경(SEM)、투사전자현미경(TEM)、X 사선연사의(XRD)화X광전자능보(XPS)표정산물적형모、정형이급류원소적참잡상태,병이갑철용액모의폐수,연구료S-TiO2공심구적자외광최화성능.결과표명,단소거제료 P(St-HEA)미구모판,성공득도 TiO2공심구,류원소참잡대TiO2공심구적립경화형모영향불대.S-TiO2공심구예태광형정립적척촌축소,정형유순적예태광형전화위예태광/금홍석형혼합정형.류뇨인입적류리자,이S4+상태취대 TiO2정립중적 Ti4+리자,형성 Ti1-x Sx O2고용체.S-TiO2공심구광최화성능우우TiO2공심구,차공심구적광최화성능우우분체P25.S-TiO2공심구재자외광하조사2 h,강해갑철적최화효솔위60%.
Sulfur-doped titanium dioxide (S-TiO2 )hollow spheres were prepared by the reaction of tetrabutyl ti-tanate and thiourea as the main raw material with polystyrene-hydroxyethyl acrylate copolymer (P (St-HEA)) microspheres templates.The morphology,crystal type and state of elemental sulfur doping of S-TiO2 hollow spheres was characterized by scanning electron microscopy (SEM),transmission electron microscopy (TEM), X-ray diffraction (XRD)and X-ray photoelectron spectroscopy (XPS).Study the catalytic properties of S-TiO2 hollow spheres using methanal solution simulated wastewater.The results showed that TiO2 hollow spheres were obtained by removing P (St-HEA)microspheres template successfully,the particle size and morphology of TiO2 hollow spheres are little effected by sulfur-doping,the crystallite dimension of TiO2 hollow spheres di-minished and the crystal shape of TiO2 hollow spheres was changed from pure anatase into anatase/rutile.Sul-phur was present in the form of S4+ which substitutes Ti4+ in the titania lattice,forming Ti1-x Sx O2 solid solu-tion.The performance of photocatalysis of doped sample was superior to the pure TiO2 hollow spheres,while they both preceded TiO2 powder.The catalytic efficiency of synthesized photocatalyst was 60% for degrading methanal under UV-light.
