用于低浓度H_(2)S室温稳定监测的CsPbBr_(3)@TiO_(2)异质结微晶气体传感器

通过简单的溶液法用TiO(Acac)_(2)原位包覆CsPbBr_(3)全无机钙钛矿材料,在400℃加热后直接制成了CsPbBr_(3)@TiO_(2)核壳结构微晶,使用X射线衍射(XRD)、扫描电子显微镜(SEM)、高倍透射电子显微镜(HRTEM)及X射线光电子能谱(XPS)对CsPbBr_(3)@TiO_(2)微晶的晶体结构、微观形貌、化学组成进行表征。结果表明,原位金属氧化物包覆钙钛矿形成分散良好、大小为4~8μm的球壳结构。用旋涂法在掺氟氧化锡(FTO)电极上构筑了CsPbBr_(3)@TiO_(2)薄膜气体传感器,在室温下测试其对H_(2)S气体的检测灵敏度,结果发现,该传感器对H_(2)S气体的检测下限达25 ppb(1 ppb=10-9),对100 ppb H_(2)S响应/恢复时间为24/21 s,灵敏度为0.59,响应曲线具有良好的循环稳定性。另外,传感器暴露在空气中30 d内的稳定性高于90%,且具有优异的气体选择性和抗湿度干扰性。通过光致发光(PL)光谱、时间分辨光致发光(TRPL)光谱、紫外-可见漫反射光谱(UV-Vis)及紫外光电子能谱(UPS)测试分析了其能带位置、电荷动力学和配位机理,并用氧吸附原理对其传感机理进行了解释。该工作为室温下低浓度H_(2)S气体的稳定监测提供了一种新的思路。

基于分等级中空微球结构Co_(3)O_(4)/WO_(3)复合材料的制备及对H_(2)S的气敏性能

通过简单的水热法合成了由纳米颗粒自组装而成的分等级中空微球结构WO_(3)和Co_(3)O_(4)/WO_(3)材料,整个实验过程中不添加任何的表面活性剂和模板剂,符合绿色化学发展理念。对样品的形貌、结构、化学成分和气敏性能进行了表征。结果表明,Co_(3)O_(4)/WO_(3)复合材料成功构筑p-n异质结并呈中空微球结构。在气敏性能测试中,Co_(3)O_(4)/WO_(3)复合材料传感器在最佳工作温度50℃下对体积分数为1×10^(-5)的H_(2)S气体的响应值为42.1,约为WO_(3)传感器的3.37倍,响应时间仅为8 s。本实验还进行了1×10^(-8)~5×10^(-5)不同体积分数的H_(2)S气体连续循环检测,检测下限低至1×10^(-8)。同时,所制备的传感器具有良好的稳定性、选择性和重现性。此外,还详细分析了Co_(3)O_(4)/WO_(3)复合材料用于H_(2)S气体检测的传感机理。

Comparative H₂S Sensing Characteristics of Fe₂O₃: Thin Film vs. Bulk

Comparative investigations of gas sensing characteristics of Fe2O3 in both thin film as well as bulk forms have been performed. Thin film sensors were realized by first depositing Fe films using electron-beam evaporation followed by thermal oxidation. Bulk sensors in the form of pellets were prepared by cold pressing commercial Fe2O3 powder with subsequent sintering. Both thin film and bulk Fe2O3 sensors exhibited a selective and reversible response characteristics towards H2S with maximum response at an operating temperature of 250°C and 200°C, respectively. A negligible response towards other interfering gases was observed. Thin film sensors exhibited an enhanced response in comparison to that of pellets.

资源三号卫星多光谱数据的大气校正研究

资源三号卫星多光谱数据空间分辨率达到5.8m,能够很好的应用于地物分类和识别,由于其缺乏短波红外波段,无法采用暗目标法进行大气校正,因此,提出通过6S辐射传输模型构建大气校正系数查找表,结合MODIS数据反演的气溶胶光学厚度参数的大气校正方法,对ZY-3卫星多光谱(MUX)数据进行大气校正。采用敦煌地区星地同步测量的石膏矿、戈壁两种地物光谱对大气校正结果进行了验证,并比较了大气校正前后归一化植被指数(NDVI)。结果表明:大气校正后的地面反射率与石膏矿、戈壁两种地物实测光谱数据相对误差不超过6%;大气校正增大了植被的NDVI与其他地物的NDVI的差值,突出在植被监测方面的应用能力。

资源三号卫星传感器校正产品的精度评估

分别选取资源三号(ZY-3)卫星平地和山地区域的前后视影像,量测20个GPS点作为控制点和检查点,对卫星传感器校正产品定位精度进行验证。通过区域网平差算法对传感器校正产品(SC)自带的有理函数模型(RPC)进行优化,消除系统误差。实验结果表明:在地形平坦地区ZY-3卫星SC产品的平面定位精度可达3.275 m,高程定位精度可达1.686 m;在地形起伏较大的山区平面定位精度可达4.335 m,高程定位精度可达3.628 m,满足1∶50 000地形图测绘的要求。

Indium-organic framework CPP-3(In)derived Ag/In_(2)O_(3) porous hexagonal tubes for H_(2)S detection at low temperature

There is a great demand for high-performance hydrogen sulfide(H_(2)S)sensors with low operating temperatures.Ag/In_(2)O_(3)hexagonal tubes with different proportions were prepared by the calcination of Ag+-impregnated indium-organic frameworks(CPP-3(In)),and the developed sensors exhibit enhanced gas-sensing performance toward H_(2)S.Gas sensing measurements indicate that the response of Ag/In_(2)O_(3)(2.5 wt%)sensor to 5 ppm H_(2)S has the highest response(119),operated at 70℃.The Ag/In_(2)O_(3)(2.5 wt%)based sensor exhibits short response time(20 s),low detection limit(300 ppb),and good selectivity toward H_(2)S gas,which imply that the CPP-3(In)-derived Ag/In_(2)O_(3)hexagonal tube is a promising candidate to be constructed a low power-consumption H_(2)S sensor.