基于納米氧化銦表面的二硫化碳傳感器研究
蔡蘋(píng)楊
摘 要:基于氧化銦(In2O3)納米材料催化二硫化碳的氧化反應產(chǎn)生化學(xué)發(fā)光的現象�����,建立一種檢測環(huán)境空氣中痕量二硫化碳的催化發(fā)光氣體傳感器����。研究結果表明:在檢測波長(cháng)460 nm�、反應溫度371 ℃�����、載氣流速600 mL/min的最優(yōu)條件下�,考察二硫化碳濃度在0.42~21 μg/mL(r=0.999 3���,n=6)間的響應情況��,檢出限為0.04 μg/mL(3σ)��,對21 μg/mL的二硫化碳連續平行測7次�,其相對標準偏差為1.8%���。此外�,考察相同濃度的常見(jiàn)揮發(fā)性有機物的干擾情況��,其結果表明該傳感器具有很好的選擇性�。連續80h通過(guò)8.4 μg/mL的二硫化碳�����,發(fā)光強度無(wú)明顯降低���,相對標準偏差小于5%�����,表明此傳感器使用壽命長(cháng)�。
關(guān)鍵詞:納米氧化銦�����;催化發(fā)光�;二硫化碳���;氣體傳感器
中圖分類(lèi)號:TP212.2��;O659.32��;TQ127.1+4��;O614.37+2 文獻標志碼:A 文章編號:1674-5124(2013)05-0042-04
Research of gas sensor based on cataluminescence emission on the
surface of nano-In2O3
CAI Ping-yang����, HUANG Cheng-yun���, AN Jin-ling
(Chengdu Hydrology Team�����,Sichuan Provincial Bureau of Geology����,Chengdu 610072�,China)
Abstract: On the basis of cataluminescence(CTL) emission on the surface of Nano-In2O3���, a novel and sensitive sensor for determing carbon disulfide was developed. The CTL’s characteristics and the optimal conditions�, air flow rate of 600 mL/min����, working temperature at 371 ℃ and wavelength at 460 nm were investigated. Under the optimized conditions����, the linear range of CTL intensity versus concentration of ammonium sulfide was 0.42-21 μg/mL(r=0.999 3�, n=6) with a detection limit of 0.04 μg/mL (3σ). The relative standard deviation (RSD) for 21 μg/mL carbon disulfide was 1.8%(n=7). Interference experiments showed that there was no response from common foreign substances��, and the present sensor can be used for the coutinuously determing 8.4 μg/mL carbon disulfide more than 80 h over two weeks with a RSD less than 5%.
Key words: nano indium oxide���; cataluminescence���; carbon disulfide����; gas sensor
