中国科技论文
中國科技論文
중국과기논문
Sciencepaper Online
2014年
2期
196-200
,共5页
光化学反应%铜%纳米粒子%生长%溶解
光化學反應%銅%納米粒子%生長%溶解
광화학반응%동%납미입자%생장%용해
photochemical reactions%copper%nanoparticles%growth%dissolution
采用光化学方法在五水硫酸铜(CuSO4·5 H2 O)的乙二醇溶液中制备了Cu纳米粒子,通过反应过程中的紫外可见光谱(UV-Vis)探讨了反应历程。采用扫描电镜、X射线衍射仪和能谱仪分析了产物的形貌、物相、晶体结构和化学组成,并研究了光化学法制备Cu纳米粒子的反应参数。研究结果证明了反应仅在隔绝空气,紫外光引发的条件下才能发生,发现了生成的Cu纳米粒子敞口静置时会被溶解在胶体中的氧气逐渐氧化,再次在隔绝空气的条件下用紫外光照射后,又会重新生成Cu纳米粒子的现象,并讨论了出现这一现象的原因。而加入三乙醇胺后,同样在隔绝空气,紫外复色光照射的情况下,Cu纳米粒子会优先生长在表面上,采用这种方法,在氧化铟锡(ITO)导电玻璃上制备得到了Cu纳米粒子。
採用光化學方法在五水硫痠銅(CuSO4·5 H2 O)的乙二醇溶液中製備瞭Cu納米粒子,通過反應過程中的紫外可見光譜(UV-Vis)探討瞭反應歷程。採用掃描電鏡、X射線衍射儀和能譜儀分析瞭產物的形貌、物相、晶體結構和化學組成,併研究瞭光化學法製備Cu納米粒子的反應參數。研究結果證明瞭反應僅在隔絕空氣,紫外光引髮的條件下纔能髮生,髮現瞭生成的Cu納米粒子敞口靜置時會被溶解在膠體中的氧氣逐漸氧化,再次在隔絕空氣的條件下用紫外光照射後,又會重新生成Cu納米粒子的現象,併討論瞭齣現這一現象的原因。而加入三乙醇胺後,同樣在隔絕空氣,紫外複色光照射的情況下,Cu納米粒子會優先生長在錶麵上,採用這種方法,在氧化銦錫(ITO)導電玻璃上製備得到瞭Cu納米粒子。
채용광화학방법재오수류산동(CuSO4·5 H2 O)적을이순용액중제비료Cu납미입자,통과반응과정중적자외가견광보(UV-Vis)탐토료반응역정。채용소묘전경、X사선연사의화능보의분석료산물적형모、물상、정체결구화화학조성,병연구료광화학법제비Cu납미입자적반응삼수。연구결과증명료반응부재격절공기,자외광인발적조건하재능발생,발현료생성적Cu납미입자창구정치시회피용해재효체중적양기축점양화,재차재격절공기적조건하용자외광조사후,우회중신생성Cu납미입자적현상,병토론료출현저일현상적원인。이가입삼을순알후,동양재격절공기,자외복색광조사적정황하,Cu납미입자회우선생장재표면상,채용저충방법,재양화인석(ITO)도전파리상제비득도료Cu납미입자。
The photochemical method was used to prepare copper nanoparticles from ethylene glycol solution of CuSO4 ·5H2O. Ultraviolet-visible (UV-Vis)spectroscopy was employed to monitor the process of reaction.SEM,XRD and EDX were used to characterize the morphology,phase,crystal structure and chemical composition of the product.The photochemical reaction con-ditions for the preparation of Cu nanoparticles were systematically investigated.The photochemical reaction could only be initiated by UV irradiation in an atmosphere isolated from air.The obtained Cu nanoparticles dissolved again into the colloid solution when the colloid was exposed to air.It has been proved that the dissolution of Cu nanoparticles was due to the oxidation of metal Cu by the oxygen molecules dissolved in the colloid.The dissolved Cu nanoparticles could be regenerated by UV irradiation in an atmos-phere isolated from air.The reasons for the growth-dissolution phenomenon of Cu nanoparticles were discussed.Cu nanoparticles preferentially grew on the solution/solid interface after triethanolamine was added in the reaction solution.The Cu nanoparticles modified indium tin oxide substrates were successfully obtained by photochemical deposition method using triethanolamine as the surface anchoring agent.