西安工程大学学报
西安工程大學學報
서안공정대학학보
JOURNAL OF XI'AN POLYTECHNIC UNIVERSITY
2015年
2期
220-223
,共4页
侯锦丽%仇润红%薛圆圆%付翀
侯錦麗%仇潤紅%薛圓圓%付翀
후금려%구윤홍%설원원%부충
铈Ce掺杂%纳米粉体%SnO2%化学共沉淀
鈰Ce摻雜%納米粉體%SnO2%化學共沉澱
시Ce참잡%납미분체%SnO2%화학공침정
Ce doping%nanopow ders%SnO2%chemical co-precipitation
为提高纳米SnO2粉体的高温稳定性,采用化学共沉淀法制备不同铈(Ce)掺杂含量的纳米SnO2粉体,并采用X射线衍射(XRD)、透射电镜(TEM)、X射线光电子谱分析(XPS)等测试手段对其结构进行表征。结果表明,Ce的掺杂明显抑制了SnO2晶粒的长大,提高了其在高温下的稳定性。当掺杂物C e的摩尔比低于10%时,晶粒大小随掺杂含量的增加下降非常显著,但随后继续增加掺杂含量,则对晶粒大小无影响。掺杂物Ce对SnO2晶粒长大的阻碍作用主要归因于其固溶于SnO2晶粒内部产生了溶质拖曳和晶格畸变效应。
為提高納米SnO2粉體的高溫穩定性,採用化學共沉澱法製備不同鈰(Ce)摻雜含量的納米SnO2粉體,併採用X射線衍射(XRD)、透射電鏡(TEM)、X射線光電子譜分析(XPS)等測試手段對其結構進行錶徵。結果錶明,Ce的摻雜明顯抑製瞭SnO2晶粒的長大,提高瞭其在高溫下的穩定性。噹摻雜物C e的摩爾比低于10%時,晶粒大小隨摻雜含量的增加下降非常顯著,但隨後繼續增加摻雜含量,則對晶粒大小無影響。摻雜物Ce對SnO2晶粒長大的阻礙作用主要歸因于其固溶于SnO2晶粒內部產生瞭溶質拖抴和晶格畸變效應。
위제고납미SnO2분체적고온은정성,채용화학공침정법제비불동시(Ce)참잡함량적납미SnO2분체,병채용X사선연사(XRD)、투사전경(TEM)、X사선광전자보분석(XPS)등측시수단대기결구진행표정。결과표명,Ce적참잡명현억제료SnO2정립적장대,제고료기재고온하적은정성。당참잡물C e적마이비저우10%시,정립대소수참잡함량적증가하강비상현저,단수후계속증가참잡함량,칙대정립대소무영향。참잡물Ce대SnO2정립장대적조애작용주요귀인우기고용우SnO2정립내부산생료용질타예화정격기변효응。
In order to improve the high temperature stability of the SnO2 nanopowders ,a series of Ce‐doped SnO2 nanopowders with various doping concentrations were prepared by chemical co‐precipitation technique ,and the prepared nanopowders were characterized by X‐ray diffrac‐tion (XRD) ,transmission electron microscopy (TEM ) ,and X‐ray photoelectron spectroscopy (XPS) .The results show that Ce doping can obviously prevent the growth of nanosized SnO2 crystallites .When the molar ratio of Ce reaches and surpasses 10% ,SnO2 crystallite size rea‐ches a minimum value and remains almost constant .The effect of Ce doping on hindering crys‐tallite grow th can be attributed to the solute drag and lattice distortion resulting from Ce dis‐solving in the bulk phase of SnO2 to form solid solution .
