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《International Journal of Hydrogen Energy》2022,47(87):36926-36952
The ohmic resistance in solid oxide fuel cells (SOFCs) mainly comes from the electrolyte, which can be reduced by developing novel electrolyte materials with higher ionic conductivity and/or fabricating thin-film electrolytes. Among various kinds of thin-film fabrication technology, the physical vapor deposition (PVD) method can reduce the electrolyte thickness to a few micrometers and mitigate the issues associated with high-temperature sintering, which is necessary for wet ceramic methods. This review summarizes recent development progress in thin-film electrolytes fabricated by the PVD method, especially pulsed laser deposition (PLD) and magnetron sputtering. At first, the importance of the substrate surface morphology for the quality of the film is emphasized. After that, the fabrication of thin-film doped-zirconia and doped-ceria electrolytes is presented, then we provide a brief summary of the works on other types of electrolytes prepared by PVD. Finally, we have come to the summary and made perspectives. 相似文献
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《International Journal of Hydrogen Energy》2022,47(61):25595-25607
Electrolysis of water for producing hydrogen instead of traditional fossil fuels is one of the most promising methods to alleviate environmental pollution and energy crisis. In this work, Fe and F ion co-doped Ni3S2 nanoarrays grown on Ni foam substrate were prepared by typical hydrothermal and sulfuration processes for the first time. Density functional theory (DFT) calculation demonstrate that the adsorption energy of the material to water is greatly enhanced due to the doping of F and Fe, which is conducive to the formation of intermediate species and the improvement of electrochemical performance of the electrode. The adsorption energy of anions (F and S) and cations (Fe and Ni) to water in each material was also calculated, and the results showed that F ion showed the most optimal adsorption energy of water, which proved that the doping of F and Fe was beneficial to improve the electrochemical performance of the electrode. It is worth noting that the surface of Fe–F–Ni3S2 material will undergo reconstruction during the process of water oxidation reaction and urea oxidation reaction, and amorphous oxides or hydroxides in situ would be formed on the surface of electrode, which are the real active species. 相似文献
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采用2mT低磁场(low magnetic field,LMF)冷冻、0mT磁场(no magnetic field,NMF)冷冻和常规冷冻(conventional freezing,CF)技术对3 组鲢鱼肌原纤维蛋白进行为期28 d的冷冻实验。通过表面疏水性、巯基含量、溶解度、浊度、热稳定性、傅里叶变换红外光谱、内源性荧光光谱和紫外吸收光谱各项指标考察蛋白的结构和功能性质变化。结果表明:施加低磁场冷冻可以抑制蛋白聚集和内部疏水基团的暴露,且能抑制α-螺旋的展开,减弱α-螺旋向β-折叠转变的能力,并维持良好的二、三级结构稳定性;CF组的蛋白总巯基含量、溶解度和浊度与NMF组相比无显著差异,由于冷冻温度较低,对蛋白聚集和内部疏水基团的暴露有一定的抑制作用,同时也使得蛋白结构变得松散不稳定;与CF组相比,LMF组同样显示出对蛋白的结构和功能有较好的保护和改善作用。总体来说,低磁场冷冻可以抑制肌原纤维蛋白变性并维持良好的结构和功能,且与常规冷冻(-30 ℃)相比,低磁场冷冻(-20 ℃、2 mT)可以节约10 ℃的冷冻温差,预测其具有一定的节能潜力。 相似文献
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以青海的黑枸杞为主要原料,以植物乳杆菌(Lactobacillus plantarum)为发酵菌种,制备黑枸杞乳酸菌饮料,并采用单因素试验和响应面试验优化其发酵工艺条件。结果表明,最佳发酵工艺条件为固液比1∶25(g∶mL),植物乳杆菌接种量2.0%,发酵时间6 h,装液量40%。在此最佳条件下,黑枸杞乳酸菌饮料感官评分为9.3分,总糖含量为0.17 mg/mL,总酸含量为1.69 g/L,花青素含量为52.75 mg/L、总黄酮含量为0.07 mg/mL、总酚含量为0.99 mg/mL。 相似文献
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Muhammad Yazid Samatra Nor Qhairul Izzreen Mohd Noor Umi Hartina Mohamad Razali Jamilah Bakar Sharifudin Md. Shaarani 《Comprehensive Reviews in Food Science and Food Safety》2022,21(4):3153-3176
Gelatin is one of the most important multifunctional biopolymers and is widely used as an essential ingredient in food, pharmaceutical, and cosmetics. Porcine gelatin is regarded as the leading source of gelatin globally then followed by bovine gelatin. Porcine sources are favored over other sources since they are less expensive. However, porcine gelatin is religiously prohibited to be consumed by Muslims and the Jewish community. It is predicted that the global demand for gelatin will increase significantly in the future. Therefore, a sustainable source of gelatin with efficient production and free of disease transmission must be developed. The highest quality of Bovidae-based gelatin (BG) was acquired through alkaline pretreatment, which displayed excellent physicochemical and rheological properties. The utilization of mammalian- and plant-based enzyme significantly increased the gelatin yield. The emulsifying and foaming properties of BG also showed good stability when incorporated into food and pharmaceutical products. Manipulation of extraction conditions has enabled the development of custom-made gelatin with desired properties. This review highlighted the various modifications of extraction and processing methods to improve the physicochemical and functional properties of Bovidae-based gelatin. An in-depth analysis of the crucial stage of collagen breakdown is also discussed, which involved acid, alkaline, and enzyme pretreatment, respectively. In addition, the unique characteristics and primary qualities of BG including protein content, amphoteric property, gel strength, emulsifying and viscosity properties, and foaming ability were presented. Finally, the applications and prospects of BG as the preferred gelatin source globally were outlined. 相似文献
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沥青中大量的沥青质分子均含杂原子,通过计算化学方法,可以分析杂原子对沥青质二聚体结构及分子间相互作用的影响,并探究其影响机理。密度泛函理论计算结果表明,杂原子的存在使分子的静电势分布差别明显。对于稠环结构相似的沥青质分子,共轭硫原子使得分子的相互作用减小,含硫沥青质较远的质心距离和硫原子相对较弱的负电势使分子的取向和质心距分布更加随机。共轭氮原子作为强负电中心,强排斥增大分子取向偏离最低能量构型的能垒,从而使沥青质二聚体的构型取向更加趋于固定。同时分子动力学结果显示,含硫沥青质对温度敏感,温度升高更严重地加剧分子排列无序;而含氮沥青质在较高温度下依旧保持相对的有序排列。 相似文献
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《International Journal of Hydrogen Energy》2022,47(99):41748-41758
Rapid advances in the field of catalysis require a microscopic understanding of the catalytic mechanisms. However, in recent times, experimental insights in this field have fallen short of expectations. Furthermore, experimental searches of novel catalytic materials are expensive and time-consuming, with no guarantees of success. As a result, density functional theory (DFT) can be quite advantageous in advancing this field because of the microscopic insights it provides and thus can guide experimental searches of novel catalysts. Several recent works have demonstrated that low-dimensional materials can be very efficient catalysts. Graphene quantum dots (GQDs) have gained much attention in past years due to their unique properties like low toxicity, chemical inertness, biocompatibility, crystallinity, etc. These properties of GQDs which are due to quantum confinement and edge effects facilitate their applications in various fields like sensing, photoelectronics, catalysis, and many more. Furthermore, the properties of GQDs can be enhanced by doping and functionalization. In order to understand the effects of functionalization by oxygen and boron based groups on the catalytic properties relevant to the hydrogen-evolution reaction (HER), we perform a systematic study of GQDs functionalized with the oxygen (O), borinic acid (BC2O), and boronic acid (BCO2). All calculations that included geometry optimization, electronic and adsorption mechanism, were carried out using the Gaussian16 package, employing the hybrid functional B3LYP, and the basis set 6-31G(d,p). With the variation in functionalization groups in GQDs, we observe significant changes in their electronic properties. The adsorption energy Eads of hydrogen over O-GQD, BC2O-GQD, and BCO2-GQD is ?0.059 eV, ?0.031 eV and ?0.032 eV respectively. Accordingly, Gibbs free energy (ΔG) of hydrogen adsorption is extraordinarily near the ideal value (0 eV) for all the three types of functionalized GQDs. Thus, the present work suggests pathways for experimental realization of low-cost and multifunctional GQDs based catalysts for clean and renewable hydrogen energy production. 相似文献