利用空间位阻和氢溢流协同作用促进5-羟甲基糠醛选择性加氢制备5-甲基糠醛

化学工业生产中，用氢气为还原剂，通过选择性加氢可以制备多种重要化学品。5-羟甲基糠醛是重要的生物质基平台化合物，而5-甲基糠醛是用途广泛的化学品。由5-羟甲基糠醛加氢得到5-甲基糠醛是一条非常理想的路径，但是选择性活化C-OH非常困难。本文设计并制备了Pt@PVP/Nb₂O₅(PVP: 聚乙烯吡咯烷酮)催化剂，该催化体系巧妙地结合了位阻效应、氢溢流和催化剂界面的电子效应，系统研究了该催化剂对5-羟甲基糠醛选择性加氢制备5-甲基糠醛催化性能，在最优条件下，5-甲基糠醛的选择性可达92%。利用密度泛函理论计算研究了5-羟甲基糠醛选择性加氢制备5-甲基糠醛反应路径。     

基于有机羧酸配体的Co(Ⅲ)/Cu(Ⅱ)配合物的合成、结构及表征

在溶剂热条件下,以含卤素有机羧酸3-溴-吡啶-2,6-二甲酸(H₂L)为配体,以硝酸钴、硝酸铜为金属源,合成了两例配合物:[Co(L′)₃](1)和[Cu(L′)₂]_n(2)(HL′=5-溴-吡啶-2-甲酸),通过元素分析(EA)、X射线单晶衍射(SXRD)、X射线粉末衍射(PXRD)、红外光谱(IR)和热重分析(TGA)进行结构表征。X射线单晶衍射结果表明,配体H₂L在反应过程中发生脱羧现象,生成单羧酸配体5-溴-吡啶-2-甲酸。在配合物1中,每个Co(Ⅲ)都位于略微扭曲的八面体几何构型中,不对称单元中含有两个单核单元,单核单元通过C—H…O氢键形成三维超分子结构。配合物2的不对称单元中含有一个Cu(Ⅱ),两个脱质子的L′^-配体,每个Cu(Ⅱ)都是六配位的,位于扭曲的八面体几何构型中。Cu(Ⅱ)由配体连接生成1D链结构,通过C—H…O氢键形成三维超分子结构。此外,研究了两例配合物的热稳定性能。     

回转体头部通气入水流场演化与载荷特性数值预报研究

地下硐室作为爆炸危险物的隐蔽贮藏空间，有潜在的内爆炸风险。为研究内爆炸作用下硐室围岩的动态响应机制，提出了一种基于岩石HJC （Holmquist-Johnson-Cook）模型和节理内聚力单元的损伤-虚拟裂纹模型。分析了模拟方法的可靠性，并在此基础上，通过多物质ALE算法对球形硐室内爆炸过程进行数值模拟，分析了围岩损伤范围和分区破坏规律。研究表明：插入内聚力单元弥补了HJC模型无法模拟低静水压力下张拉破坏的不足，且尺寸效应易于处理。模拟方法同时考虑了岩体内张拉裂纹的扩展和岩石材料的塑性损伤，能够真实地反映岩石破坏的全过程。以红砂岩为例，根据数值模拟结果，填实（耦合装药）爆炸时围岩分区破坏规律明显，破碎区比例半径为0.26 m/kg^1/3、裂隙区比例半径为0.47 m/kg^1/3。随着硐室尺寸的增大，空气的间隔作用可以减小爆炸荷载对围岩的损伤作用，比例半径达到0.52 m/kg^1/3时，可以实现爆炸荷载的完全解耦。     

研究性学习在无机化学教学中的应用

This paper introduces the attempts of inquiry learning in inorganic chemistry teaching and proposes the significances of inquiry learning. The inquiry learning has been applied in experimental teaching, case teaching, experience teaching, etc. The implementation effects of inquiry learning are showed through teaching data. The practices indicate that the inquiry learning stimulates the students' learning initiatives, strengthens the interactions between teachers and students, cultivates the students' innovation abilities and exploration spirits, and improves the teaching effects.     

[N_2O_2]型镍基配合物在中性水溶液中产氢性能的研究

通过简单易行的曼尼希(Mannich)反应,合成了一种[N_2O_2]型配体,在少量三乙胺存在条件下,成功实现了与高氯酸镍配位,得到了镍金属配合物。通过核磁共振氢谱、高分辨质谱等手段对配体和配合物进行了表征。该化合物在水中具有一定的溶解度,并在中性磷酸缓冲溶液中显示出良好的电化学催化产氢活性。     

Degasperis-Procesi方程的类孤子新解

利用辅助方程与函数变换相结合的方法,构造了Degasperis-Procesi(D-P)方程的无穷序列类孤子新解.首先,通过两种函数变换,把D-P方程化为常微分方程组.然后,利用常微分方程组的首次积分,把D-P方程的求解问题化为几种常微分方程的求解问题.最后,利用几种常微分方程的Bcklund变换等相关结论,构造了D-P方程的无穷序列类孤子新解.这里包括由Riemannθ函数、Jacobi椭圆函数、双曲函数、三角函数和有理函数组成的无穷序列光滑孤立子解、尖峰孤立子解和紧孤立子解.     

利用空间位阻和氢溢流协同作用促进5-羟甲基糠醛选择性加氢制备5-甲基糠醛

Selective hydrogenation is a vital class of reaction. Various unsaturated functional groups in organic compounds, such as aromatic rings, alkynyl (C≡C), carbonyl (C＝O), nitro (-NO₂), and alkenyl (C＝C) groups, are typical targets in selective hydrogenation. Therefore, selectivity is a key indicator of the efficiency of a designed hydrogenation reaction. 5-(Hydroxymethyl)furfural (HMF) is an important platform compound in the context of biomass conversion, and recently, the hydrogenation of HMF to produce fuels and other valuable chemicals has received significant attention. Controlling the selectivity of HMF hydrogenation is paramount because of the different reducible functional groups (C＝O, C-OH, and C＝C) in HMF. Moreover, the exploration of new routes for hydrogenating HMF to valuable chemicals is becoming attractive. 5-Methylfurfural (MF) is also an important organic compound; thus, the selective hydrogenation of HMF to MF is an essential synthetic route. However, this reaction has challenging thermodynamic and kinetic aspects, making it difficult to realize. Herein, we propose a strategy to design a highly efficient catalytic system for selective hydrogenation by exploiting the synergy between steric hindrance and hydrogen spillover. The design and preparation of the Pt@PVP/Nb₂O₅ catalyst (PVP = polyvinyl pyrrolidone; Nb₂O₅ = niobium(V) oxide) were also conducted. Surprisingly, HMF could be converted to MF with 92% selectivity at 100% HMF conversion. The reaction pathway was revealed through the combination of control experiments and density functional theory calculations. Although PVP blocked HMF from accessing the surface of Pt, hydrogen (H₂) could be activated on the surface of Pt due to its small molecular size, and the activated H₂ could migrate to the surface of Nb₂O₅ through a phenomenon called H₂ spillover. The Lewis acidic surface of Nb₂O₅ could not adsorb the C＝O group but could adsorb and activate the C-OH group of HMF; therefore, when HMF was adsorbed on Nb₂O₅, the C-OH groups were hydrogenated by the spilled over H₂ to form MF. The high selectivity of this reaction was realized because of the unique combination of steric effects, hydrogen spillover, and tuning of the electronic states of the Pt and Nb₂O₅ surfaces. This new route for producing MF has great potential for practical application owing to its discovered advantages. We believe that this novel strategy can be used to design catalysts for other selective hydrogenation reactions. Furthermore, this study demonstrates a significant breakthrough in selective hydrogenation, which will be of interest to researchers working on the utilization of biomass, organic synthesis, catalysis, and other related fields.      

锂电池中的“锂键”效应

由于广泛存在,氢键在化学领域备受重视。“锂键”具有类似于氢键的一些性质,但锂的金属性和相对较大的原子半径,又使得“锂键”具有自己独特的一些特征。在氢键的基础上,介绍了“锂键”的概念、结构特点及其在锂电池中的应用,有助于人们深刻理解和应用“锂键”。考虑到“锂键”的新概念目前在化学教学中还较少涉及,期望今后可以适当增加“锂键”化学的相关知识,紧跟科技发展的潮流,进一步培养学生的科研创新意识。     

高中化学与大学无机化学教材知识点的衔接研究*

作为化学教育专业的必修课程,无机化学起到了奠定师范生化学理论基础的重要作用。在衔接高中化学知识的前提下,开展大学无机化学教学有助于构建完整的化学知识教学体系、调动师范生学习的积极性,实现高中到大学无机化学课程学习的顺利过渡。笔者在教学实践、教育实习指导及调研的基础上,以人教版高中化学、北师大版《无机化学》教材内容为例,从教与学的角度探讨了高中化学和大学无机化学教材知识点的衔接情况,形成了部分经验积累和教学建议,为师范类专业认证背景下的无机化学课程教学提供借鉴和参考。