新型纳米晶FexC系软磁合金粉末的制备及磁性研究

用机械球磨方法(MA)制备纳米晶FexC系软磁合金粉末(其中x=1、3、4、8),球磨时间分别为60、120、180、255、300h.用X-ray衍射谱分析样品的物相及其晶格结构,用振动样品磁强计测量粉末样品的磁性.对不同球磨时间而言,发现当球磨时间在小于120h范围内,随着球磨时间的增加,样品的软磁特能不断提高,当球磨时间达120h时,材料有最佳的软磁特能,对不同球磨成分而言,随着C含量减少(Fe含量的增加),其磁性能进一步提高,当x=8时,材料的饱和磁化强度σs达178.24emu/g,矫顽力降为1.76kA/m.其优良的软磁特性可与传统的FeNi、FeCo合金粉末相比.当球磨时间大于120h,样品的软磁性能开始变差.从X-ray衍射谱的分析可看出,这是由于样品发生了相变,从单相体心立方结构的α-Fe(C)固溶体向FeC金属间化合物转变.x=1的样品,经255h球磨后,样品成为单相Fe5C2金属间化物,它具有单斜晶体结构.这说明随着球磨时间的增加,材料由软磁性向硬磁性转化.同时发现样品随C含量增加时材料的抗氧化能力也提高了.并对上述实验结果进行了讨论.

FexC enhancing the catalytic activity of FeNx in oxidative dehydration of N-heterocycles

To enhance the catalytic activity by designing metal particles combined with atomically dispersed non-noble metal catalyst is a huge challenge,which yet has not been studied widely in organic reactions.Herein,we describe a simple and efficient method to synthesize FexC combined with Fe single atoms anchored on the Ndoped porous carbon by regulating pyrolysis temperature.Aberration-corrected high-angle annular dark-field scanning transmission electron microscopy(HAADF-STEM)and extended X-ray absorption fine structure(EXAFS)spectroscopy corroborate the existence of atomically dispersed Fe and the coordination number between Fe and N atoms.The Fe-N-C-800 catalyst exhibits the highest catalytic activity giving the 97%yield of quinoline in dehydration of 1,2,3,4-tetrahydroquinoline(THQ)reaction at a mild condition(60C,O_(2)balloon),and it shows good stability with 80%isolated yield after five consecutive dehydration reactions.Moreover,density functional theory(DFT)calculations reveal that coexistence of Fe_(x)C and FeN_(x)structure exhibits high activity owing to the lowest adsorption energy of co-adsorbed O_(2)and THQ and the longest N-H bond length of THQ,that is because the existence of FexC induces the charges transfer.Our work may open a new route to design metal particles combined with atomically dispersed non-noble metal catalysts with high activity in organic synthesis.

低温NH_3选择性催化还原脱硝催化剂Mn_1Fe_xCe_(1-x)/TiO_2抗硫再生性能研究

通过共沉淀法制备了Mn1Fe1-xCex/TiO2催化剂,以NH3为还原剂,考察了催化剂的脱硝性能及抗硫再生性能。结果表明,Mn1Fe0.9Ce0.1/TiO2催化剂表现出最佳的脱硝活性和优良的抗硫性能,在140℃时NO转化率可达到100%。在烟气中通入的SO2浓度小于等于80mg/m3时,催化剂只发生可逆性中毒,当SO2浓度大于80mg/m3时,在催化剂表面会生成硝酸盐及硫酸盐等物质导致不可逆失活,但中毒失活催化剂在经水洗后可实现再生,NO的转化率可基本恢复至新鲜催化剂水平。

方钴矿化合物Fe_xCo_(4-x)Sb_(12)的高温高压合成及其电输运特性研究

采用高压合成技术,在1.5 GPa,900 K的合成压力和温度条件下成功合成出了系列Fe置换掺杂型方钴矿化合物Fe_xCo_4-xSb_12,其中x=0,0.2,0.6,0.8.详细研究了Fe_xCo_4-xSb_12样品在300 K～700 K温度范围内的电阻率、Seebeck系数和功率因子(S^2σ)随温度和Fe掺杂量的变化关系.研究结果表明:在测试温度范围内,随着温度的升高,样品的电阻率和Seebeck系数逐渐增大.随着Fe含量的增加,样品的电阻率和Seebeck系数先增加后减小.与常压下相同样品比较。高压合成方法制备的样品的电学输运特性有了明显的提高.上述研究结果表明,高压合成技术在制备热电材料方面能够有效地提高样品的电输运特性.

关于渗氮—氮碳共渗产品化合物层疏松(不致密)的检测

概述了渗氮-氮碳共渗产品化合物层疏松的形成原因,指出了GB/T11354—2005对化合物疏松层的评判缺陷,分析了化合物层疏松程度的判定依据,提出了化合物层的结构特征。