物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2014年
11期
2113-2120
,共8页
林雪%郭晓宇%王庆伟%常利民%翟宏菊
林雪%郭曉宇%王慶偉%常利民%翟宏菊
림설%곽효우%왕경위%상이민%적굉국
Bi2MoO6/BiVO4%复合材料%纳米结构%光催化活性
Bi2MoO6/BiVO4%複閤材料%納米結構%光催化活性
Bi2MoO6/BiVO4%복합재료%납미결구%광최화활성
Bi2MoO6/BiVO4%Composite material%Nanostructure%Photocatalytic activity
采用一步水热法制备Bi2MoO6/BiVO4复合光催化剂。利用X射线衍射(XRD)、场发射扫描电子显微镜(FESEM)、高分辨透射电子显微镜(HRTEM)等手段对其晶体结构和微观结构进行了表征。结果表明, Bi2MoO6纳米粒子沉积在BiVO4纳米片表面从而形成异质结结构。紫外-可见漫反射光谱(UV-Vis DRS)表明所制备的Bi2MoO6/BiVO4异质结较纯相Bi2MoO6和BiVO4对可见光吸收更强。由于形成异质结结构及其光吸收性能使Bi2MoO6/BiVO4光催化活性有较大提高。可见光下(λ>420 nm)光催化降解罗丹明B (RhB)实验结果表明, Bi2MoO6/BiVO4光催化活性较纯相Bi2MoO6和BiVO4高。 Bi2MoO6/BiVO4样品光催化性能提高的原因是Bi2MoO6和BiVO4形成异质结,从而有效抑制光生电子-空穴对的复合,增大了可见光吸收范围及比表面积。
採用一步水熱法製備Bi2MoO6/BiVO4複閤光催化劑。利用X射線衍射(XRD)、場髮射掃描電子顯微鏡(FESEM)、高分辨透射電子顯微鏡(HRTEM)等手段對其晶體結構和微觀結構進行瞭錶徵。結果錶明, Bi2MoO6納米粒子沉積在BiVO4納米片錶麵從而形成異質結結構。紫外-可見漫反射光譜(UV-Vis DRS)錶明所製備的Bi2MoO6/BiVO4異質結較純相Bi2MoO6和BiVO4對可見光吸收更彊。由于形成異質結結構及其光吸收性能使Bi2MoO6/BiVO4光催化活性有較大提高。可見光下(λ>420 nm)光催化降解囉丹明B (RhB)實驗結果錶明, Bi2MoO6/BiVO4光催化活性較純相Bi2MoO6和BiVO4高。 Bi2MoO6/BiVO4樣品光催化性能提高的原因是Bi2MoO6和BiVO4形成異質結,從而有效抑製光生電子-空穴對的複閤,增大瞭可見光吸收範圍及比錶麵積。
채용일보수열법제비Bi2MoO6/BiVO4복합광최화제。이용X사선연사(XRD)、장발사소묘전자현미경(FESEM)、고분변투사전자현미경(HRTEM)등수단대기정체결구화미관결구진행료표정。결과표명, Bi2MoO6납미입자침적재BiVO4납미편표면종이형성이질결결구。자외-가견만반사광보(UV-Vis DRS)표명소제비적Bi2MoO6/BiVO4이질결교순상Bi2MoO6화BiVO4대가견광흡수경강。유우형성이질결결구급기광흡수성능사Bi2MoO6/BiVO4광최화활성유교대제고。가견광하(λ>420 nm)광최화강해라단명B (RhB)실험결과표명, Bi2MoO6/BiVO4광최화활성교순상Bi2MoO6화BiVO4고。 Bi2MoO6/BiVO4양품광최화성능제고적원인시Bi2MoO6화BiVO4형성이질결,종이유효억제광생전자-공혈대적복합,증대료가견광흡수범위급비표면적。
A Bi2MoO6/BiVO4 photocatalyst with a heterojunction structure was synthesized by a one-pot hydrothermal method. Its crystal structure and microstructure were characterized by X-ray diffraction (XRD), field emission scanning electron microscopy (FESEM), and high-resolution transmission electron microscopy (HRTEM). The FESEM and HRTEM images indicated that Bi2MoO6 nanoparticles were loaded on the surface of BiVO4 nanoplates to form a heterojunction. The ultraviolet visible (UV-Vis) diffuse reflection spectra (DRS) showed that the resulting Bi2MoO6/BiVO4 heterojunction possessed more intensive absorption within the visible light range compared with pure Bi2MoO6 and BiVO4. These excel ent structural and spectral properties endowed the Bi2MoO6/BiVO4 heterojunction with enhanced photocatalytic activity. It was found that the Rhodamine B (RhB) degradation rate with Bi2MoO6/BiVO4 was higher than that with pure BiVO4 and Bi2MoO6 under visible light (λ>420 nm) by photocatalytic measurements. The enhanced photocatalytic performance of the Bi2MoO6/BiVO4 sample can be attributed to the improved separation efficiency of photogenerated hole-electron pairs generated by the heterojunction between Bi2MoO6 and BiVO4, intensive absorption within the visible light range, and high specific surface area.
