高等学校化学学报
高等學校化學學報
고등학교화학학보
CHEMICAL JOURNAL OF CHINESE UNIVERSITIES
2014年
4期
695-701
,共7页
丁双%王润伟%张宗弢%裘式纶
丁雙%王潤偉%張宗弢%裘式綸
정쌍%왕윤위%장종도%구식륜
F-离子%C掺杂Nb2 O5%可见光%光催化
F-離子%C摻雜Nb2 O5%可見光%光催化
F-리자%C참잡Nb2 O5%가견광%광최화
F- ion%C-doped Nb2 O5%Visible light%Photocatalysis
在合成C掺杂Nb2 O5的基础上,通过引入F-离子合成出具有更高光催化活性的C, F共掺杂Nb2 O5光催化材料,对合成样品进行了分析、表征并测试了其光降解罗丹明B的活性,研究了F-离子对C掺杂Nb2 O5纳米粒子生长及光催化性能的影响。结果表明,在合成过程中引入F-离子能够促进Nb2 O5纳米晶的生长,尤其是沿[001]方向的生长。实验结果还表明, F未进入Nb2 O5纳米晶的晶格内部,而是以F-离子的形式分散在Nb2 O5纳米结构中,通过促进Nb2 O5表面·OH自由基的产生,起到提高合成样品光催化活性的作用。
在閤成C摻雜Nb2 O5的基礎上,通過引入F-離子閤成齣具有更高光催化活性的C, F共摻雜Nb2 O5光催化材料,對閤成樣品進行瞭分析、錶徵併測試瞭其光降解囉丹明B的活性,研究瞭F-離子對C摻雜Nb2 O5納米粒子生長及光催化性能的影響。結果錶明,在閤成過程中引入F-離子能夠促進Nb2 O5納米晶的生長,尤其是沿[001]方嚮的生長。實驗結果還錶明, F未進入Nb2 O5納米晶的晶格內部,而是以F-離子的形式分散在Nb2 O5納米結構中,通過促進Nb2 O5錶麵·OH自由基的產生,起到提高閤成樣品光催化活性的作用。
재합성C참잡Nb2 O5적기출상,통과인입F-리자합성출구유경고광최화활성적C, F공참잡Nb2 O5광최화재료,대합성양품진행료분석、표정병측시료기광강해라단명B적활성,연구료F-리자대C참잡Nb2 O5납미입자생장급광최화성능적영향。결과표명,재합성과정중인입F-리자능구촉진Nb2 O5납미정적생장,우기시연[001]방향적생장。실험결과환표명, F미진입Nb2 O5납미정적정격내부,이시이F-리자적형식분산재Nb2 O5납미결구중,통과촉진Nb2 O5표면·OH자유기적산생,기도제고합성양품광최화활성적작용。
C and F co-doped Nb2 O5 photocatalysts were prepared by introducing F- ions to C-doped Nb2 O5 . The effects of F-ions on the growth and photocatalytic activity of Nb2 O5 nanocrystals were studied. The synthe-sized samples were characterized by XRD, SEM, TEM, N2 adsorption-desorption, XPS, UV-Vis and photo-degradation of RhB. The experimental results indicate that the F-ions can promote the growth of Nb2 O5 nano-crystals, especially along the direction of [001]. The results also show that the F- ions are not incorporated into the lattice of Nb2 O5 by occupying the O atoms, but physically adsorbed on the surface of Nb2 O5 nanocrys-tals. The fluorination over the surface of C-doped Nb2 O5 can enhance the generation of free · OH radicals thus accelerate the photocatalytic reaction.
