光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2009年
12期
3315-3318
,共4页
共聚焦拉曼光谱%曲线拟合技术%硫酸锌微液滴%风化
共聚焦拉曼光譜%麯線擬閤技術%硫痠鋅微液滴%風化
공취초랍만광보%곡선의합기술%류산자미액적%풍화
Confocal Raman%Curve fitting technique%ZnSO_4 droplet%Efflorescence
通过共聚焦拉曼原位光谱技术在分子水平上研究了沉积在聚四氟乙烯基底上的ZnSO_4微液滴的风化过程.根据获得的高信噪比的Raman光谱,详细探讨了湿度降低时ZnSO_4微液滴中Zn~(2+)和SO_4~2离子的缔合行为,即经由单齿、双齿最终转化为复杂的链状或网状接触离子对.利用曲线拟合技术对其光谱的ν1-SO_4~2峰进行分峰,获得了不同湿度下ZnSO_4微液滴中各组分的量化信息:高湿度时,液滴中主要包含自由的水合SO_4~(2-);随着湿度降低,自由SO_4~(2-)逐渐向单齿、双齿接触离子对转化,并在湿度为66%和34%时分别达到其最大值;继续降低湿度,复杂的链状或网状接触离子对逐渐成为液滴中的主要成分.
通過共聚焦拉曼原位光譜技術在分子水平上研究瞭沉積在聚四氟乙烯基底上的ZnSO_4微液滴的風化過程.根據穫得的高信譟比的Raman光譜,詳細探討瞭濕度降低時ZnSO_4微液滴中Zn~(2+)和SO_4~2離子的締閤行為,即經由單齒、雙齒最終轉化為複雜的鏈狀或網狀接觸離子對.利用麯線擬閤技術對其光譜的ν1-SO_4~2峰進行分峰,穫得瞭不同濕度下ZnSO_4微液滴中各組分的量化信息:高濕度時,液滴中主要包含自由的水閤SO_4~(2-);隨著濕度降低,自由SO_4~(2-)逐漸嚮單齒、雙齒接觸離子對轉化,併在濕度為66%和34%時分彆達到其最大值;繼續降低濕度,複雜的鏈狀或網狀接觸離子對逐漸成為液滴中的主要成分.
통과공취초랍만원위광보기술재분자수평상연구료침적재취사불을희기저상적ZnSO_4미액적적풍화과정.근거획득적고신조비적Raman광보,상세탐토료습도강저시ZnSO_4미액적중Zn~(2+)화SO_4~2리자적체합행위,즉경유단치、쌍치최종전화위복잡적련상혹망상접촉리자대.이용곡선의합기술대기광보적ν1-SO_4~2봉진행분봉,획득료불동습도하ZnSO_4미액적중각조분적양화신식:고습도시,액적중주요포함자유적수합SO_4~(2-);수착습도강저,자유SO_4~(2-)축점향단치、쌍치접촉리자대전화,병재습도위66%화34%시분별체도기최대치;계속강저습도,복잡적련상혹망상접촉리자대축점성위액적중적주요성분.
Confocal Raman technique was used to investigate the structure changes of the ZnSO_4 droplets deposited on Teflon substrate in the efflorescence process at the molecular level. Upon decreasing the relative humidity (RH), the symmetric stretc-hing band (ν1-SO_4~(2-)) of ZnSO_4 droplet blue shifted from 981 cm~(-1) gradually to 987,998 and 1 008 cm~(-1) , respectively, indicating that the free SO_4~(2-) ion associates with Zn~(2+) ion as the solution concentration increases and forms various contact ion pairs (CIPs), i. e. , monodentate, bidentate and complicated multidentate chain-structured or web-structured CIPs. Accordingly, two obvious transition points were also observed in the hygroscopic curve of ZnSO_4 droplet, implying the structure transformations in the droplet. In order to obtain the information about the contents and evolutions of various components in the droplets, curve fit-ting technique was used to extract the components at positions of 981, 987, 998 and 1 008 cm~(-1) in the spectral range of 945-1 065 cm~(-1) representing the free SO_4~(2-) ion, monodentate, bidentate and complicated CIPs, respectively. The results indicated that the main component in droplets was free hydrated SO_4~(2-) ion at high RHs. With decreasing the RH, monodentate and biden-tate CIPs were formed by Zn~(2+) and SO_4~(2-) and achieved their highest contents at RHs of 66% to 34%, respectively. Further de-creasing the RH, the monodentate and bidentate CIPs gradually changed into multidentate chain-structured CIPs or complicated CIPs webs, which became the main components in supersaturated ZnSO_4 droplets as the RH decreased below 34%.
