传感技术学报
傳感技術學報
전감기술학보
Journal of Transduction Technology
2015年
7期
958-963
,共6页
气体传感器%石英晶振微天平%一步原位聚合法%聚苯胺%苹果释放气体
氣體傳感器%石英晶振微天平%一步原位聚閤法%聚苯胺%蘋果釋放氣體
기체전감기%석영정진미천평%일보원위취합법%취분알%평과석방기체
gas sensor%quartz crystal microbalance%one-step in situ polymerization method%ployaniline%apple re-leasing gassing
为监测水果在仓储、运输等过程中的新鲜程度,研制了一种石英晶振微天平(QCM)气体传感器。以基频6 MHz的石英晶体为基片,运用一步原位聚合法在其上沉积了对甲苯磺酸(TSA)掺杂聚苯胺气敏薄膜,制作出QCM水果气体传感器。搭建了测试平台,设计了相应的起振、整形、差频、频压转换及数据采集电路。在室温下,测试了该传感器对放置不同天数的苹果释放气体的敏感特性。实验结果表明,在一定范围内,TSA掺杂浓度增加会改善传感器的气敏性能。传感器对放置不同天数的苹果释放气具有不同的响应特性,且具有灵敏度高、线性度好、响应速度快、重复性好等优点,有望在水果仓储运输方面得以应用。
為鑑測水果在倉儲、運輸等過程中的新鮮程度,研製瞭一種石英晶振微天平(QCM)氣體傳感器。以基頻6 MHz的石英晶體為基片,運用一步原位聚閤法在其上沉積瞭對甲苯磺痠(TSA)摻雜聚苯胺氣敏薄膜,製作齣QCM水果氣體傳感器。搭建瞭測試平檯,設計瞭相應的起振、整形、差頻、頻壓轉換及數據採集電路。在室溫下,測試瞭該傳感器對放置不同天數的蘋果釋放氣體的敏感特性。實驗結果錶明,在一定範圍內,TSA摻雜濃度增加會改善傳感器的氣敏性能。傳感器對放置不同天數的蘋果釋放氣具有不同的響應特性,且具有靈敏度高、線性度好、響應速度快、重複性好等優點,有望在水果倉儲運輸方麵得以應用。
위감측수과재창저、운수등과정중적신선정도,연제료일충석영정진미천평(QCM)기체전감기。이기빈6 MHz적석영정체위기편,운용일보원위취합법재기상침적료대갑분광산(TSA)참잡취분알기민박막,제작출QCM수과기체전감기。탑건료측시평태,설계료상응적기진、정형、차빈、빈압전환급수거채집전로。재실온하,측시료해전감기대방치불동천수적평과석방기체적민감특성。실험결과표명,재일정범위내,TSA참잡농도증가회개선전감기적기민성능。전감기대방치불동천수적평과석방기구유불동적향응특성,차구유령민도고、선성도호、향응속도쾌、중복성호등우점,유망재수과창저운수방면득이응용。
A quartz crystal microbalance (QCM) gas sensor is researched in order to monitor the fruit freshness in the process of storage,transportation and so on. The ployaniline film doped with Toluene Sulfonic Acid (TSA) was synthesized by one-step in situ polymerization method and was coated on a Quartz Crystal with the fundamental fre?quency of 6 MHz. The test platform was built,which consisting of start-up,plastic,difference frequency,F/V and da?ta acquisition circuits. The response of the sensor to different days’apple releasing gas was tested at room tempera?ture. Experimental results show that in a certain range,the doping concentration of TSA will increase gas sensing performance of the sensor. The sensor has a different response characteristics to apple releasing gas which was placed different days. It also has a high sensitivity,good linearity,fast response and good reproducibility. The re?seached sensor is expected to be applied in the fields of fruit storage and transportation.
