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1.
传统合成氨工艺存在能耗高、污染严重的问题. 因此, 高效、低能耗绿色合成氨工艺的开发迫在眉睫. 光电化学以H2O和N2为原料, 可以在太阳光驱动下, 在常温常压条件下实现氨的合成, 因而受到广泛重视. 但总的来说, 效率和产率都达不到实际要求. 新型高效催化剂及工艺的开发是提高合成氨产率及效率的关键. 非贵金属催化剂具备成本低、来源广泛、可操作性强的优势, 有利于光电化学合成氨的产业化. 本实验采用溶胶凝胶结合原位热裂解的方法制备了分散性好、结构均匀的BiOCl-Fe2O3@TiO2复合材料, 对其物相、微观结构、表面状态、光学性能、电学性能等方面进行了系统表征, 并探究了该材料在常温常压下光电化学合成氨的催化活性. 结果表明, 同纯介孔TiO2相比, BiOCl-Fe2O3@TiO2的吸收带隙变窄, 可见光吸收能力增强, 光生载流子的利用率增加, 光电合成氨的产率提升了7倍, 且BiOCl-Fe2O3@TiO2显示了优异的化学稳定性. 本研究工作为绿色合成氨催化材料及工艺设计提供了新思路.  相似文献   
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In this paper, for the Lorentz manifold M2 × R with M2 a 2-dimensional complete surface with nonnegative Gaussian curvature, the authors investigate its spacelike graphs over compact, strictly convex domains in M2 , which are evolving by the nonparametric mean curvature flow with prescribed contact angle boundary condition, and show that solutions converge to ones moving only by translation.  相似文献   
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N-methylation of amines and imines with formic acid as C1 source by easily prepared Pt NPs as heterogeneous catalyst is reported here. Primary, secondary amines and imines were successfully methylated in good to excellent yields under mild conditions. Both aromatic and aliphatic amines could be applied as substrates. Meanwhile, the heterogeneous Pt NPs were capable to be recylcled and reused for 7 times without significant decrease of reactivity. This protocol provided an indirect utilization pathway of CO2 by using formic acid as C1 source.  相似文献   
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为了实现工业现场对特种钢材的快速检测与种类识别,采用基于光纤传能的移动式激光诱导击穿光谱(LIBS)样机对14种特种钢材进行光谱数据的采集与分析,采用预选谱线并遍历组合的降维方法与支持向量机(SVM)相结合的算法对特钢材料的光谱进行快速分类。分别将原始光谱数据、归一化处理后的光谱数据、归一化处理+遍历组合优选谱线数据作为SVM分类模型的输入向量,并对比了不同输入向量下模型对特钢识别的准确度。结果表明:在事先选出的51条特征谱线作为输入变量的基础上,归一化光谱数据作为SVM分类模型的输入特征时,识别准确度达到95.71%,明显高于使用原始光谱数据作为输入向量时SVM分类模型的准确度11.43%。进一步地,使用MATLAB程序遍历谱线组合,通过遍历各种谱线组合选出最优的输入谱线组合,当优选6条特定的谱线时,对特钢种类识别的准确度达到100%,且建模速度也有相应提升。可以看出,当预选出大量常见特征数据时,机器自动选取特征与人工挑选谱线相比,具有明显优势,基于此降维方法的SVM算法模型在LIBS快速分类技术中具有很好的工业应用前景。  相似文献   
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In this paper, we propose a mechanism on how to construct long MDS self-dual codes from short ones. These codes are special types of generalized Reed-Solomon (GRS) codes or extended generalized Reed-Solomon codes. The main tool is utilizing additive structure or multiplicative structure on finite fields. By applying this method, more MDS self-dual codes can be constructed.  相似文献   
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Although great progress has been made in the advancement of nanozymes, most of the studies focus on mimicking peroxidase, oxidase, and catalase, while relatively few studies are used to mimic laccase. However, the use of nanomaterials to mimic laccase activity will have great potential in environmental and industrial catalysis. Herein, Cu/CuO-graphene foam with laccase-like activity was designed for the identification of phenolic compounds and the detection of epinephrine. In a typical experiment, the formation mechanism of Cu/CuO-graphene foam was investigated during the pyrolysis process by thermogravimetric-mass spectrometry. As a laccase mimic, Cu/CuO-graphene foam exhibited excellent catalytic activity with a Michaelis-Menten constant and a maximum initial velocity of 0.17 mmol/L and 0.012 mmol∙L-1∙s-1, respectively. Based on this principle, Cu/CuO-graphene foam nanozyme could differentially catalyze phenolic compounds and 4-aminoantipyrine for simultaneous identification of phenolic compounds. Furthermore, a colorimetric sensing platform was fabricated for the quantitative determination of epinephrine, showing linear responses to epinephrine in the range of 3 mg/mL to 20 mg/mL with the detection limit of 0.2 mg/mL. The proposed Cu/CuO-graphene foam nanozyme could be applied for the identification of phenolic compounds and the detection of epinephrine, showing great potential applications for environmental monitoring, biomedical sensing, and food detection fields.  相似文献   
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Artificial synapse is one of the potential electronics for constructing neural network hardware. In this work, Pt/LiSiOx/TiN analog artificial synapse memristor is designed and investigated. With the increase of compliance current (C. C.) under 0.6 mA, 1 mA, and 3 mA, the current in the high resistance state (HRS) presents an increasing variation, which indicates lithium ions participates in the operation process for Pt/LiSiOx/TiN memristor. Moreover, depending on the movement of lithium ions in the functional layer, the memristor illustrates excellent conduction modulation property, so the long-term potentiation (LTP) or depression (LTD) and paired-pulse facilitation (PPF) synaptic functions are successfully achieved. The neural network simulation for pattern recognition is proposed with the recognition accuracy of 91.4%. These findings suggest the potential application of the LiSiOx memristor in the neuromorphic computing.  相似文献   
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