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161.
A novel voltammetric method for the sensitive determination of ethylenediaminetetraacetic acid (EDTA) was developed based on a graphene oxide (GO) modified electrode. In acetate buffer solution, GO showed a voltammetric response composed of a sharp anodic peak and a weak cathodic peak. When EDTA was present in the solution, the voltammetric response of GO was suppressed. Under optimum conditions, the response of the GO‐modified electrode was inversely proportional to the concentration of EDTA from 6.0×10?7 to 1.0×10?4 mol/L. Using such a GO‐based voltammetry, the effective photoelectrocatalytic degradation of EDTA over a TiO2 film electrode was evaluated and some influencing factors were investigated. 相似文献
162.
Shaoxiong Yang Lucy T. Zhang Cheng Hua Yunqiao Liu Jingdong Tang Xiaobo Gong Zonglai Jiang 《Acta Mechanica Sinica》2018,34(6):1156-1166
Mechanical stimuli play critical roles in cardiovascular diseases, in which in vivo stresses in blood vessels present a great challenge to predict. Based on the structural–thermal coupled finite element method, we propose a thermal expansion method to estimate stresses in multi-layer blood vessels under healthy and pathological conditions. The proposed method provides a relatively simple and convenient means to predict reliable in vivo mechanical stresses with accurate residual stress. The method is first verified with the opening-up process and the pressure-radius responses for single and multi-layer vessel models. It is then applied to study the stress variation in a human carotid artery at different hypertension stages and in a plaque of vascular stenosis. Our results show that specific or optimal residual stresses exist for different blood pressures, which helps form a homogeneous stress distribution across vessel walls. High elastic shear stress is identified on the shoulder of the plaque, which contributes to the tearing effect in plaque rupture. The present study indicates that the proposed numerical method is a capable and efficient in vivo stress evaluation of patient-specific blood vessels for clinical purposes. 相似文献