催化学报
催化學報
최화학보
CHINESE JOURNAL OF CATALYSIS
2009年
10期
1058-1062
,共5页
氧化锌%纳米管%纳米颗粒%甲基橙%降解%光催化活性
氧化鋅%納米管%納米顆粒%甲基橙%降解%光催化活性
양화자%납미관%납미과립%갑기등%강해%광최화활성
zinc oxide%nanotube%nanoparticle%methyl orange%degradation%photocatalytic activity
以十二烷基硫酸钠为模板剂采用水热法合成了ZnO纳米管,以尿素和ZnSO_4为原料制备了ZnO纳米颗粒,并应用透射电镜、x射线衍射、光致发射光谱、拉曼光谱、比表面积测定、傅里叶红外光谱和紫外-可见漫反射光谱等技术对样品进行了表征.结果表明,ZnO纳米管的比表面积较大,在λ≈650nm的可见光波段ZnO纳米管开始出现吸收峰,而ZnO纳米颗粒在可见光波段几乎没有吸收.ZnO纳米管和纳米颗粒在紫外光照射下均对甲基橙有降解作用,其中ZnO纳米管的光催化活性较高.随着催化剂用量的增加和光照时间的延长,甲基橙降解率逐渐提高;甲基橙浓度的增大使甲基橙降解率降低.
以十二烷基硫痠鈉為模闆劑採用水熱法閤成瞭ZnO納米管,以尿素和ZnSO_4為原料製備瞭ZnO納米顆粒,併應用透射電鏡、x射線衍射、光緻髮射光譜、拉曼光譜、比錶麵積測定、傅裏葉紅外光譜和紫外-可見漫反射光譜等技術對樣品進行瞭錶徵.結果錶明,ZnO納米管的比錶麵積較大,在λ≈650nm的可見光波段ZnO納米管開始齣現吸收峰,而ZnO納米顆粒在可見光波段幾乎沒有吸收.ZnO納米管和納米顆粒在紫外光照射下均對甲基橙有降解作用,其中ZnO納米管的光催化活性較高.隨著催化劑用量的增加和光照時間的延長,甲基橙降解率逐漸提高;甲基橙濃度的增大使甲基橙降解率降低.
이십이완기류산납위모판제채용수열법합성료ZnO납미관,이뇨소화ZnSO_4위원료제비료ZnO납미과립,병응용투사전경、x사선연사、광치발사광보、랍만광보、비표면적측정、부리협홍외광보화자외-가견만반사광보등기술대양품진행료표정.결과표명,ZnO납미관적비표면적교대,재λ≈650nm적가견광파단ZnO납미관개시출현흡수봉,이ZnO납미과립재가견광파단궤호몰유흡수.ZnO납미관화납미과립재자외광조사하균대갑기등유강해작용,기중ZnO납미관적광최화활성교고.수착최화제용량적증가화광조시간적연장,갑기등강해솔축점제고;갑기등농도적증대사갑기등강해솔강저.
ZnO nanotubes were synthesized by the hydrothermal method using sodium dodecyl sulfate as the template, and ZnO nanopar-tides were prepared with urea and ZnSO_4 as raw materials. The optical properties and photocatalytic activity of ZnO nanotubes and nanopar-ticles were studied, and the samples were characterized by transmission electron microscopy, X-ray diffraction, photoluminescence spec-troscopy, Raman spectroscopy, specific surface area determination, Fourier transform infrared spectroscopy, and ultraviolet-visual diffuse reflection spectroscopy. The ZnO nanotubes had larger specific surface area than the ZnO nanoparticles. The absorption peak of ZnO nanotubes began to appear atλ≈650 nm, but the ZnO nanoparticles nearly had no absorptive capacity in the visible band. ZnO nanotubes and nanoparticles can degradate methyl orange under ultraviolet light, and the catalytic activity of ZnO nanotubes was greater than that of ZnO nanoparticles. With the increase in the catalyst amount and illumination time, the degradation rate of methyl orange increased. Increasing the methyl orange concentration reduced the degradation rate.