光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
Spectroscopy and Spectral Analysis
2015年
9期
2540-2543
,共4页
柳青%陈玉静%王海水%曾强%OZAKI Yukihiro
柳青%陳玉靜%王海水%曾彊%OZAKI Yukihiro
류청%진옥정%왕해수%증강%OZAKI Yukihiro
水汽干扰%干扰峰扣除%红外光谱%高分辨%气体样品
水汽榦擾%榦擾峰釦除%紅外光譜%高分辨%氣體樣品
수기간우%간우봉구제%홍외광보%고분변%기체양품
Water vapor interference%Elimination%Infrared spectrum%High resolution%Gas sample
测量气体样品的红外光谱时,红外光谱仪器内的水汽和气体样品中所含的水汽会严重干扰气体的红外光谱。为消除水汽的干扰,通常作法是测量前必须将水分子(气态)彻底排除掉,也就是使光谱仪器和气体样品保持干燥状态。该研究提供一个新测量方法,不需任何干燥预处理过程,直接获得含水汽的丙酮气体的红外光谱。经过几十次光谱扫描累加后,观察并根据水汽谱的吸收峰性质(吸光率>0或吸光率<0),向光谱仪样品室引入少量干燥氮气或少量潮湿空气,在接下来的光谱扫描累加过程中,水汽吸收峰将逐渐变小直至消失。实验结果表明该方法去除水汽干扰峰简单高效。新方法在0.5 cm-1光谱分辨率时效果非常好,为气体的高分辨分析提供了有力工具。
測量氣體樣品的紅外光譜時,紅外光譜儀器內的水汽和氣體樣品中所含的水汽會嚴重榦擾氣體的紅外光譜。為消除水汽的榦擾,通常作法是測量前必鬚將水分子(氣態)徹底排除掉,也就是使光譜儀器和氣體樣品保持榦燥狀態。該研究提供一箇新測量方法,不需任何榦燥預處理過程,直接穫得含水汽的丙酮氣體的紅外光譜。經過幾十次光譜掃描纍加後,觀察併根據水汽譜的吸收峰性質(吸光率>0或吸光率<0),嚮光譜儀樣品室引入少量榦燥氮氣或少量潮濕空氣,在接下來的光譜掃描纍加過程中,水汽吸收峰將逐漸變小直至消失。實驗結果錶明該方法去除水汽榦擾峰簡單高效。新方法在0.5 cm-1光譜分辨率時效果非常好,為氣體的高分辨分析提供瞭有力工具。
측량기체양품적홍외광보시,홍외광보의기내적수기화기체양품중소함적수기회엄중간우기체적홍외광보。위소제수기적간우,통상작법시측량전필수장수분자(기태)철저배제도,야취시사광보의기화기체양품보지간조상태。해연구제공일개신측량방법,불수임하간조예처리과정,직접획득함수기적병동기체적홍외광보。경과궤십차광보소묘루가후,관찰병근거수기보적흡수봉성질(흡광솔>0혹흡광솔<0),향광보의양품실인입소량간조담기혹소량조습공기,재접하래적광보소묘루가과정중,수기흡수봉장축점변소직지소실。실험결과표명해방법거제수기간우봉간단고효。신방법재0.5 cm-1광보분변솔시효과비상호,위기체적고분변분석제공료유력공구。
Water vapor in the beam of a Fourier transform infrared (FTIR)spectrometer or/and in a gas cell is a major source of interference in the infrared measurement of a gas sample.In general,in order to eliminate the effect of water vapor,we have to completely remove these molecules before the measurement of any spectrum. Herein,we provide an approach to collect an IR spectrum of a gas (wet acetone)sample free from water vapor interference without any drying pretreatment.After dozens of scans,the air atmosphere in the sample com-partment of the FTIR spectrometer will be slightly adjusted by small amounts of dry air or wet air (room air) depending on the property of water vapor lines (absorbance>0 or absorbance <0).Water vapor lines will then gradually disappear when the ensuing collection process is continued.The experiment results demonstra-ted that this method is a facile and very effective way to remove water vapor interference.Moreover,this method works still well for the measurement at 0.5 cm-1 resolution,typically used in the gas infrared meas-urement.
