三亚甲基苯并咪唑取代三氮环壬烷镍配合物的合成、表征、电化学性质及其与DNA的作用

本文合成了一个新的镍配合物:[Ni(tribentacn)](ClO4)2,(tribentacn为1,4,7-三亚甲基苯并咪唑-1,4,7-三氮环壬烷),用元素分析、红外光谱等手段对其进行了表征,并用X-射线衍射单晶结构分析测定了配合物的晶体结构。该配合物晶体属三斜晶系,P1空间群;中心离子镍位于6个氮原子形成的畸变八面体的中心;还研究了该配合物的电化学性质及其与DNA的作用。     

Sb,Bi,Zr,Si元素微量掺杂对荧光粉YAG∶Ce发光性能的影响

采用高温固相法分别合成了Sb³⁺,Bi³⁺,Zr⁴⁺,Si⁴⁺共掺杂的YAG:Ce黄色荧光粉。研究了YAG:Ce黄色荧光粉的发光强度随元素种类以及微量掺杂浓度的变化情况及相关机理。结果显示,随着元素Sb³⁺,Bi³⁺,Zr⁴⁺,Si⁴⁺掺杂浓度的增加,发射峰强度均表现出先增大后减小的趋势。Sb³⁺,Bi³⁺与Ce³⁺之间存在多极子相互作用的共振传递及晶格修复作用,当Sb³⁺,Bi³⁺掺杂浓度分别为0.5和0.1 mmol时发射峰强度达到最大值,分别提高了35.5%和44.8%。在YAG:Ce中由于Zr⁴⁺,Si⁴⁺的电荷补偿作用,促进Ce⁴⁺→Ce³⁺的转化,从而提高了YAG:Ce的发光强度。Zr⁴⁺,Si⁴⁺掺杂浓度分别在0.3和7 mmol时达到最大值,分别提高了27.4%和31.2%。由荧光粉颗粒形貌可知,Sb³⁺,Bi³⁺,Zr⁴⁺,Si⁴⁺元素的微量掺杂能促使晶粒长大,并且近似球型,导致发光强度有明显的提高。     

基于微观粒子运动本质再探核外电子运动的教学设计与实施*

高中选择性必修阶段对核外电子运动再探究需要在学科理解视域下认识核外电子运动的本质规律。通过原子结构模型的演变过程抽提核外电子运动的本原性问题,在本原性问题解决的学习任务中引导学生发展性地建构原子结构模型。基于微观粒子运动的本质认识核外电子的运动特征和描述方式,建构核外电子运动的微观认识视角。     

结合PBL课例的无机化学线下对分课堂教学设计与实践*

以原电池一节教学设计为例,探索了将PBL课例融入对分课堂教学模式。教学实践表明,新教学模式激发了学生的学习兴趣,提高了学生学习的积极性和主动性,提升了课程教学效果,达到了课程教学目标。对PBL课例与对分课堂有机融合的全新课堂教学模式的建设与发展进行了展望。     

Recent Advances of Beta Zeolite in the Volatile Organic Compounds(VOCs) Elimination by the Catalytic Oxidations

Volatile organic compounds(VOCs) have become one of the most serious threats to human health and eco-environment due to their volatility, toxicity and diffusivity, etc. Catalytic completely oxidation had been regarded as a highly efficient strategy for the VOCs abatement. Metal or metal oxides supported on zeolite have been considered as superior catalysts for the treatment of VOCs. Among them, Beta zeolites have attracted many attentions due to their unique structure and consequently catalytic properties in the oxidation of VOCs. The progresses and developments made in the understanding and design of Beta zeolites-based catalysts in the completely oxidation of VOCs in the past two decades have been systematically summarized in this review.     

Preparation and Properties of Electrospun Sheath-core Modified-PMMA Nanofibers with Photoluminescence and Photochromic Functions

Multi-functional nanofibers are playing an important role in the optical field, and are widely used in fluorescence indication, product anti-counterfeit identification and smart clothing. Nanofibers with photoluminescence and photochromic functions are already attracting more interest from researchers. In this work, based on electrospun technology, the modified-PMMA nanofibers[PMMA=poly(methyl methacrylate)] with photoluminescence and photochromic functions were prepared through the design of the sheath-core structure(SCNFs 1-4). Compared with other samples, SCNF-4 shows outstanding photoluminescence and photochromic functions. SCNF-4 can produce green light and its fluorescence intensity and fluorescence lifetime can reach 7144 a.u. and 1031.32 μs, respectively. In photochromic functions, SCNF-4 can show purple in 1 min under the 365 nm ultraviolet light, and the color can be preserved for more than 4 h under the sunlight. When SCNF-4 is irradiated by far infrared light, the color of the samples can fade quickly in 40 s. Under the irradiation of ultraviolet light of different wavelengths, SCNF-4 can display multi-color fluorescence and achieve a reversible transition between white and purple. The design of the sheath-core structure realizes the complementarity of photoluminescence and photochromic functions of the electrospun modified-PMMA nanofibers, which is important to promote the wide application of multi-functional nanofibers in the optical field.     

Host-Guest Interactions of Cyclopentanocucurbit[6]uril with Alkyl Imidazolium Hydrochlorides

The host-guest interactions between cyclopentanocucurbit-[6]uril(CyP₆Q[6]) as host and six alkyl imidazolium hydrochloride as guests(g1, g2, g3, g4, g5, and g6) have been studied by various techniques, such as ¹H NMR spectroscopy, isothermal titration calorimetry, mass spectrometry, and single-crystal X-ray diffraction analysis. The experimental results showed that CyP₆Q[6] formed 1:1 inclusion complexes with each of guests g1-g6. The part of the guest entered the cavity of CyP₆Q[6] changes as the alkyl chain increases in length. It can be seen that the length of the alkyl chain plays a key role in determining the mode of host-guest interactions.     

快速蒸发电离质谱技术及其应用研究进展

近年来,原位电离质谱技术成为质谱分析领域的研究前沿和热点。快速蒸发电离质谱技术源于外科手术中的手术烟雾现象,自2009年报道以来,作为一种新型原位电离质谱技术已被广泛应用于医学、微生物鉴定、食品真伪鉴别、代谢物研究、药用植物成分鉴定等领域。该技术通过电离切割组织或其他生物样品产生的含丰富特定区域生物特征的气溶胶,对其进行原位、在线、实时、快速质谱分析。该文阐述了快速蒸发电离质谱技术的发展历程、电离机制及工作原理,并对其在不同领域的应用研究进展进行了综述,可为相关领域研究人员提供科研思路和技术参考。     

QuEChERS/高效液相色谱-串联质谱法测定柑橘中7种酚类环境激素

建立了QuEChERS/高效液相色谱－串联质谱（QuEChERS/HPLC－MS/MS）同时检测柑橘中7种酚类环境激素的分析方法。柑橘样品均质粉碎后采用乙腈（含0.1%甲酸）超声提取,氯化钠盐析,经N-丙基乙二胺（PSA）+C18粉末吸附剂净化,目标化合物经Waters ACQUITY UPLC BEH C18柱（50 mm × 2.1 mm,1.7 μm）分离,以水（含0.5 mmol/L乙酸铵）和甲醇为流动相进行梯度洗脱。考察了不同提取溶剂、提取时间、提取溶剂体积、吸附剂种类和用量对目标化合物回收率的影响。结果表明：在最佳条件下,双酚A（BPA）、壬基酚（NP）、双酚F（BPF）在0.5～100 μg/L范围内线性关系良好,双酚B（BPB）、双酚S（BPS）、4-n-壬基酚（4-n-NP）、4-n-辛基酚（4-n-OP）在0.2～100 μg/L范围内线性关系良好,相关系数（r2）均不小于0.994 1,检出限（LOD）为0.2～0.5 μg/L,定量下限（LOQ）为0.5～1.5 μg/L。在10、250、500 μg/kg 3个加标水平下,目标化合物的回收率为88.5%～109%,相对标准偏差（RSD）为1.2%～9.0%。应用该方法对市售的8种柑橘样品进行检测,BPA在7种柑橘中均检出,4-n-OP在5种柑橘中检出,NP和4-n-NP在3种柑橘中检出,BPB在1种柑橘中检出,BPF、BPS在所有样品中均未检出。该方法操作简单、快速灵敏、定量准确、精密度高,适用于柑橘中7种酚类环境激素的测定。     

电子回旋共振离子源等离子体的密度测量

 诊断电子回旋共振离子源等离子体的传统方法是采用传统的单探针无发射时测量伏安曲线,并根据曲线的拐点由理论公式计算出的等离子体密度。本文设计并研制了等离子体密度的测量装置。采用单根朗缪尔探针（该探针可以用来发射电子）测量等离子体的伏安特性。在探针有发射和无发射两种状态下测量得到两条伏安曲线,根据这两条曲线的"分叉点"得到等离子体电位,然后根据该电位直接由计算机计算出电子温度、电子密度。采用该新方法,测量得到的等离子体参量空间电位约为17 V,悬浮电位约为-5 V,电子温度约为4.4 eV,离子密度为1.10×10¹¹cm^-3,与传统方法计算出的等离子体1.12×10¹¹cm^-3相比,两者相差仅1.8％,但新方法效率和精度更高。