Howley Rhona, MacCraith B D, O'Dwyer Kieran, Masterson Hugh, Kirwan P, McLoughlin Peter
Waterjord Institute of Technology, Cork Road, Waterford City, Ireland.
Appl Spectrosc. 2003 Apr;57(4):400-6. doi: 10.1366/00037020360625934.
A poly(dimethylsiloxane) (PDMS) coated sapphire fiber has been investigated as a sensor for hydrocarbons (HCs) in the mid-infrared region around 3000 cm(-1). In order to optimize and predict sensor response, the diffusion behavior of the analytes into the PDMS preconcentration medium has been examined. A diffusion model based on Fickian diffusion was used to quantify diffusion. The model incorporated such factors as film thickness, refractive index of the polymer and the fiber core, and principal wavelength at which the analyte absorbs. A range of hydrocarbons, from hexane to pentadecane, was analyzed at 2930 cm(-1) using both fiber-coupled Fourier transform infrared spectroscopy and a modular prototype system. Diffusion coefficients were determined for these compounds and diffusion behavior examined and related to factors such as analyte polarity and molecular size. The diffusion coefficients were found to range from 6.41 x 10(-11) 5 x 10(-12) to 5.25 x 10(-11) +/- 9 x 10(-13) cm2 s(-1) for hexane and pentadecane into a 2.9 microm PDMS film, respectively. The diffusion model was also used to examine the effect of changing system parameters such as film thickness in order to characterize sensor response.
一种聚二甲基硅氧烷(PDMS)涂层蓝宝石光纤已被研究作为一种用于检测3000 cm⁻¹附近中红外区域碳氢化合物(HCs)的传感器。为了优化和预测传感器响应,已对分析物在PDMS预浓缩介质中的扩散行为进行了研究。基于菲克扩散的扩散模型被用于量化扩散。该模型纳入了诸如膜厚度、聚合物和光纤芯的折射率以及分析物吸收的主波长等因素。使用光纤耦合傅里叶变换红外光谱和模块化原型系统,在2930 cm⁻¹处对一系列从己烷到十五烷的碳氢化合物进行了分析。测定了这些化合物的扩散系数,研究了扩散行为,并将其与分析物极性和分子大小等因素相关联。对于己烷和十五烷扩散到2.9微米厚的PDMS膜中,扩散系数分别为6.41×10⁻¹¹±5×10⁻¹²至5.25×10⁻¹¹±9×10⁻¹³ cm² s⁻¹。扩散模型还被用于研究改变系统参数(如膜厚度)对传感器响应的影响,以便对传感器响应进行表征。