高等学校化学学报
高等學校化學學報
고등학교화학학보
CHEMICAL JOURNAL OF CHINESE UNIVERSITIES
2014年
6期
1175-1180
,共6页
黄晓玮%邹小波%赵杰文%石吉勇%李志华
黃曉瑋%鄒小波%趙傑文%石吉勇%李誌華
황효위%추소파%조걸문%석길용%리지화
硫化氢%二氧化钛%花青素%溶胶-凝胶%气体传感器
硫化氫%二氧化鈦%花青素%溶膠-凝膠%氣體傳感器
류화경%이양화태%화청소%용효-응효%기체전감기
Sulfuretted hydrogen%Titanium dioxide%Cyanidin%Sol-gel%Gas sensor
采用溶胶-凝胶法在叉指金电极表面制备纳米二氧化钛(TiO2)多孔薄膜,并用浓度为2.5×104 mol/ L的花青素对其进行敏化,制备了一种能在室温条件下检测硫化氢(H2 S)的高灵敏度传感器.从材料的光谱特性、微观结构和传感器的灵敏度等方面对该传感器的性能进行了评价,并讨论了传感器的响应机理以及温度和湿度对灵敏度的影响.结果表明,材料表面的可见吸收光谱比花青素红移了约50 nm,吸收能力有所提高;纳米 TiO2颗粒呈层状堆积排列,颗粒之间具有较多缝隙,比表面积大.在室温下,该气体传感器对浓度为5~50 mL/ m3的 H2 S 具有良好的敏感特性,传感器灵敏度与 H2 S 浓度呈线性相关,相关系数为0.939,响应时间为50~70 s,恢复时间为160~180 s.计算和测试结果表明,环境湿度约为50%时传感器的灵敏度最佳;在10~50℃范围内,温度与传感器的灵敏度存在负相关性.该方法为简单、经济制备室温条件下工作的气体传感器提供了新思路和新方法.
採用溶膠-凝膠法在扠指金電極錶麵製備納米二氧化鈦(TiO2)多孔薄膜,併用濃度為2.5×104 mol/ L的花青素對其進行敏化,製備瞭一種能在室溫條件下檢測硫化氫(H2 S)的高靈敏度傳感器.從材料的光譜特性、微觀結構和傳感器的靈敏度等方麵對該傳感器的性能進行瞭評價,併討論瞭傳感器的響應機理以及溫度和濕度對靈敏度的影響.結果錶明,材料錶麵的可見吸收光譜比花青素紅移瞭約50 nm,吸收能力有所提高;納米 TiO2顆粒呈層狀堆積排列,顆粒之間具有較多縫隙,比錶麵積大.在室溫下,該氣體傳感器對濃度為5~50 mL/ m3的 H2 S 具有良好的敏感特性,傳感器靈敏度與 H2 S 濃度呈線性相關,相關繫數為0.939,響應時間為50~70 s,恢複時間為160~180 s.計算和測試結果錶明,環境濕度約為50%時傳感器的靈敏度最佳;在10~50℃範圍內,溫度與傳感器的靈敏度存在負相關性.該方法為簡單、經濟製備室溫條件下工作的氣體傳感器提供瞭新思路和新方法.
채용용효-응효법재차지금전겁표면제비납미이양화태(TiO2)다공박막,병용농도위2.5×104 mol/ L적화청소대기진행민화,제비료일충능재실온조건하검측류화경(H2 S)적고령민도전감기.종재료적광보특성、미관결구화전감기적령민도등방면대해전감기적성능진행료평개,병토론료전감기적향응궤리이급온도화습도대령민도적영향.결과표명,재료표면적가견흡수광보비화청소홍이료약50 nm,흡수능력유소제고;납미 TiO2과립정층상퇴적배렬,과립지간구유교다봉극,비표면적대.재실온하,해기체전감기대농도위5~50 mL/ m3적 H2 S 구유량호적민감특성,전감기령민도여 H2 S 농도정선성상관,상관계수위0.939,향응시간위50~70 s,회복시간위160~180 s.계산화측시결과표명,배경습도약위50%시전감기적령민도최가;재10~50℃범위내,온도여전감기적령민도존재부상관성.해방법위간단、경제제비실온조건하공작적기체전감기제공료신사로화신방법.
A sulfuretted hydrogen sensor operating at room temperature based on pigment-sensitized TiO2 films was fabricated. TiO2 was prepared by sol-gel method and deposited on glass slides containing gold electrodes. The film was then immersed in a 2. 5 ×10-4 mol/ L ethanol solution of cyanidin to absorb the pigment. For characterization of texture, UV-Vis diffuse reflectance spectra, field emission scanning electron microscopy, sulfuretted hydrogen adsorption-desorption measurements and temperature, humidity measurements were adop-ted. The results demonstrate that the sol-gel layers show a high porosity, a slightly more compact material close to the substrate. The cyanidin-sensitized TiO2 nanosheets exhibit a clear red shift(50 nm) compared with cyanidin. The hybrid organic-inorganic formed film can detect sulfuretted hydrogen reversibly at room tempera-ture. The sensitivity of the films increased almost linearly with increasing the concentrations of sulfuretted hy-drogen(R2 =0. 939). The response time to increasing concentrations of the sulfuretted hydrogen is about 50 ~70 s, and the corresponding values for decreasing concentrations 160 ~ 180 s. At low humidity, sulfuretted hy-drogen could be ionized by the cyanidin on the TiO2 film and thereby decrease in the proton concentration at the surface. The resistance response to sulfuretted hydrogen of the sensors was nearly independent on tempera-ture from 10 ℃ to 50 ℃. This preliminary work proposes simpler and cheaper processes to fabricate gas sensor for room temperature applications.
