无机化学学报
無機化學學報
무궤화학학보
JOURNAL OF INORGANIC CHEMISTRY
2009年
11期
1922-1927
,共6页
陈旬%梁诗景%毕进红%高剑%吴棱
陳旬%樑詩景%畢進紅%高劍%吳稜
진순%량시경%필진홍%고검%오릉
自生长燃烧法%铁酸钇固溶体%光催化%正交结构
自生長燃燒法%鐵痠釔固溶體%光催化%正交結構
자생장연소법%철산을고용체%광최화%정교결구
self-propagating combustion method%YFeO_3 solid solution%photocatalysis%orthorhombic structure
以硝酸铁和硝酸钇作为前驱体,甘氨酸为燃料用自生长燃烧法合成了可见光光催化剂YFeO_3及其固溶体.样品通过X射线粉末衍射(XRD)、N_2吸附、紫外-可见漫反射(UV-Vis DRS)、扫描电子显微镜(SEM)和透射电镜(TEM)等表征了其晶相结构、BET比表面积和形貌.结果表明掺杂一定量的金属能有效地提高自生长燃烧法合成的YFeO_3的纯度,所合成的样品晶粒大小约为55 nm.与YFeO_3相比其固溶体吸收边红移.光催化降解亚甲基蓝(MB)和罗丹明B(RhB)结果表明YFeO_3及其固溶体均具有活性,Bi修饰的YFeO_3表现出最高的光催化活性,而且对于不同染料的降解程度不同.
以硝痠鐵和硝痠釔作為前驅體,甘氨痠為燃料用自生長燃燒法閤成瞭可見光光催化劑YFeO_3及其固溶體.樣品通過X射線粉末衍射(XRD)、N_2吸附、紫外-可見漫反射(UV-Vis DRS)、掃描電子顯微鏡(SEM)和透射電鏡(TEM)等錶徵瞭其晶相結構、BET比錶麵積和形貌.結果錶明摻雜一定量的金屬能有效地提高自生長燃燒法閤成的YFeO_3的純度,所閤成的樣品晶粒大小約為55 nm.與YFeO_3相比其固溶體吸收邊紅移.光催化降解亞甲基藍(MB)和囉丹明B(RhB)結果錶明YFeO_3及其固溶體均具有活性,Bi脩飾的YFeO_3錶現齣最高的光催化活性,而且對于不同染料的降解程度不同.
이초산철화초산을작위전구체,감안산위연료용자생장연소법합성료가견광광최화제YFeO_3급기고용체.양품통과X사선분말연사(XRD)、N_2흡부、자외-가견만반사(UV-Vis DRS)、소묘전자현미경(SEM)화투사전경(TEM)등표정료기정상결구、BET비표면적화형모.결과표명참잡일정량적금속능유효지제고자생장연소법합성적YFeO_3적순도,소합성적양품정립대소약위55 nm.여YFeO_3상비기고용체흡수변홍이.광최화강해아갑기람(MB)화라단명B(RhB)결과표명YFeO_3급기고용체균구유활성,Bi수식적YFeO_3표현출최고적광최화활성,이차대우불동염료적강해정도불동.
YFeO_3 and its solid solutions responding to visible light were prepared by a self-propagating combustion method using yttrium nitrate and iron nitrate as precursors and glycine as a fuel. The crystalline phase structures, BET surface areas, and morphologies of as-prepared samples were characterized by X-ray powder diffraction(XRD), N_2-sorption, UV-Vis diffuse reflectance spectroscopy (UV-Vis DRS), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). The results show that the purity of YFeO_3 samples prepared via self-propagating combustion method can be effectively enhanced by metal-doping. The average crystalline size of as-synthesized samples is 55 nm. Compared with YFeO_3, the absorption edge of the solid solution samples are red shifted. The YFeO_3 and its solid solutions exhibit noticeable photocatalytic activities for the degradation of methylene blue(MB) and rhodamine B (RhB). And Bi-doped YFeO_3 shows the best performance. Moreover, the YFeO_3 solid solutions show different activities for the degradation of different dyes.
