分析测试学报
分析測試學報
분석측시학보
JOURNAL OF INSTRUMENTAL ANALYSIS
2010年
3期
242-246
,共5页
赵丰华%陈平清%霍延平%蓝邦
趙豐華%陳平清%霍延平%藍邦
조봉화%진평청%곽연평%람방
CdS%纳米棒%溶剂法%光学性能
CdS%納米棒%溶劑法%光學性能
CdS%납미봉%용제법%광학성능
cadmium sulfide%nano-crystalline%solvothermal%photoluminescence property
以硫脲和醋酸镉为原料,采用溶剂热法在不同的反应介质和温度下合成了CdS纳米晶,比较了单胺与双胺对合成CdS纳米晶形貌的影响.采用透射电镜(TEM)、X射线粉末衍射仪(XRD)和荧光分光光度计(PL)对合成的CdS纳米晶结构和光学性能进行表征.结果表明:反应温度和反应介质对其形貌有影响,在双胺的条件下,60 ℃时合成了纯相的六方相CdS纳米棒;双胺条件下更易生成纳米棒,且高温下晶体的结晶性更好.PL分析表明,水(溶剂)热法制备的CdS的荧光光谱图与大多数CdS类似,均在440 ~480 nm和550 nm处存在发射峰,但较宽的发射峰蓝移说明材料的光学性质受到材料形貌和制备方法的影响.
以硫脲和醋痠鎘為原料,採用溶劑熱法在不同的反應介質和溫度下閤成瞭CdS納米晶,比較瞭單胺與雙胺對閤成CdS納米晶形貌的影響.採用透射電鏡(TEM)、X射線粉末衍射儀(XRD)和熒光分光光度計(PL)對閤成的CdS納米晶結構和光學性能進行錶徵.結果錶明:反應溫度和反應介質對其形貌有影響,在雙胺的條件下,60 ℃時閤成瞭純相的六方相CdS納米棒;雙胺條件下更易生成納米棒,且高溫下晶體的結晶性更好.PL分析錶明,水(溶劑)熱法製備的CdS的熒光光譜圖與大多數CdS類似,均在440 ~480 nm和550 nm處存在髮射峰,但較寬的髮射峰藍移說明材料的光學性質受到材料形貌和製備方法的影響.
이류뇨화작산력위원료,채용용제열법재불동적반응개질화온도하합성료CdS납미정,비교료단알여쌍알대합성CdS납미정형모적영향.채용투사전경(TEM)、X사선분말연사의(XRD)화형광분광광도계(PL)대합성적CdS납미정결구화광학성능진행표정.결과표명:반응온도화반응개질대기형모유영향,재쌍알적조건하,60 ℃시합성료순상적륙방상CdS납미봉;쌍알조건하경역생성납미봉,차고온하정체적결정성경호.PL분석표명,수(용제)열법제비적CdS적형광광보도여대다수CdS유사,균재440 ~480 nm화550 nm처존재발사봉,단교관적발사봉람이설명재료적광학성질수도재료형모화제비방법적영향.
Cadmium sulfide nano-crystalline was synthesized with Cd(NO3)2·2H2O and NH2CSNH2 by solvothermal method at different reaction temperatures and time.Effects of monoamine and furadiamine on morphology of CdS nano-crystalline were investigated.Structure and photoluminescence property of CdS nano-crystalline were characterized by transmission electron microscopy(TEM),X-ray diffraction(XRD) and photoluminescence(PL).The results showed that the reaction temperature and reaction medium affected on the morphology of CdS.In the presence of organic double amine,CdS nanorods were synthesized in a much low-temperature of 60 ℃.The existing of organic double amine and high temperature were favourable for the generation of CdS nano-rods with better crystal quality.There are two wide band emission peaks,e.g.440-480 nm and 550 nm,in the emission spectrum.With the increase of ethylenediamine concentration,emission peak at 440-480 nm could be slight blue shift.Optical properties of nano-crystalline indicate that its physical features are great dependent on the chemical synthesis procedures.
