陕西科技大学学报(自然科学版)
陝西科技大學學報(自然科學版)
협서과기대학학보(자연과학판)
JOURNAL OF SHAANXI UNIVERSITY OF SCIENCE & TECHNOLOGY
2014年
4期
49-52
,共4页
殷立雄%王丹%黄剑锋%吴建鹏%王菲菲%陈水成
慇立雄%王丹%黃劍鋒%吳建鵬%王菲菲%陳水成
은립웅%왕단%황검봉%오건붕%왕비비%진수성
水浴法%Sm(OH)3 纳米晶%光催化
水浴法%Sm(OH)3 納米晶%光催化
수욕법%Sm(OH)3 납미정%광최화
water-bath method%Sm(OH)3 nanocrystallites%photo catalytic
以Sm(NO3)3·6H2 O、氨水、NaOH、乙二胺和二乙烯三胺为主要原料,蒸馏水为溶剂,在水浴条件下分别制得了颗粒状和棒状结构的Sm (OH)3纳米晶。采用X-射线衍射仪(XRD)、扫描电子显微镜(SEM )和Lambda 950分光光度计分别对产物的物相、形貌和光学性能进行表征,研究了不同碱源对Sm(OH)3纳米晶的结构和光催化性能的影响。结果表明:水浴条件下,弱碱氨水不利于Sm(OH)3纳米晶的结晶生长过程的进行,所得产物呈现非晶颗粒的团聚体;在强碱乙二胺和二乙烯三胺作用下得到了结晶性良好的棒状结构的产物,且棒的长径比的增大有益于产物光催化性能的提高。
以Sm(NO3)3·6H2 O、氨水、NaOH、乙二胺和二乙烯三胺為主要原料,蒸餾水為溶劑,在水浴條件下分彆製得瞭顆粒狀和棒狀結構的Sm (OH)3納米晶。採用X-射線衍射儀(XRD)、掃描電子顯微鏡(SEM )和Lambda 950分光光度計分彆對產物的物相、形貌和光學性能進行錶徵,研究瞭不同堿源對Sm(OH)3納米晶的結構和光催化性能的影響。結果錶明:水浴條件下,弱堿氨水不利于Sm(OH)3納米晶的結晶生長過程的進行,所得產物呈現非晶顆粒的糰聚體;在彊堿乙二胺和二乙烯三胺作用下得到瞭結晶性良好的棒狀結構的產物,且棒的長徑比的增大有益于產物光催化性能的提高。
이Sm(NO3)3·6H2 O、안수、NaOH、을이알화이을희삼알위주요원료,증류수위용제,재수욕조건하분별제득료과립상화봉상결구적Sm (OH)3납미정。채용X-사선연사의(XRD)、소묘전자현미경(SEM )화Lambda 950분광광도계분별대산물적물상、형모화광학성능진행표정,연구료불동감원대Sm(OH)3납미정적결구화광최화성능적영향。결과표명:수욕조건하,약감안수불리우Sm(OH)3납미정적결정생장과정적진행,소득산물정현비정과립적단취체;재강감을이알화이을희삼알작용하득도료결정성량호적봉상결구적산물,차봉적장경비적증대유익우산물광최화성능적제고。
Sm(OH)3 nanocrystallites with particle and rodlike morphology were synthesized by using Sm(NO3 )3 · 6H2 O ,NH3 · H2O ,NaOH ,ethanediamine and diethylenetriamine as main raw materials and distilled water as solvent in water bath .The phase composition ,mor-phologies and optical performances of the as-prepared samples were characterized by XRD (X-ray diffractometer) ,SEM (scanning electron microscope) and Lambda 950 spectropho-tometer and the influence of different alkaline agents on the structure and photocatalytic ac-tivity of the products w ere investigated .Results show that N H3 · H2 O is negative for the crystallized process of Sm (OH)3 nanocrystallites under the condition of water bath .Well crystallized hexagonal Sm(OH)3 nanocrystallites with rodlike morphology were prepared by using ethanediamine and diethylenetriamine as alkaline agents .Moreover the increase of the aspect ratio of the nanorods is good for improving the photocatalytic activities of the Sm (OH)3 nanocrystallites .
