Gd2(WO4)3：Eu纳米发光材料中黄昆因子和能量传递速率的实验获得

采用共沉淀法制备了不同Eu3+掺杂浓度的Gd2(WO4)3纳米发光材料.测量了纳米材料样品的X射线衍射谱(XRD)和场发射扫描电镜,对样品的结构和形貌进行了表征.测量了各样品的发射光谱和激发光谱(声子边带光谱),绘制了浓度猝灭曲线,确定了最佳的掺杂浓度为20mol%.通过声子边带光谱计算了不同掺杂浓度样品的黄昆因子.测量了不同浓度样品的荧光寿命,利用Auzel模型对Eu3+5D0能级荧光寿命数据进行了拟合,确定了5D0能级的固有寿命和猝灭过程中生成的声子数.本文还根据荧光寿命数据计算了Eu3+之间的能量传递速率,确定了能量传递速率与浓度的关系.

基于WSN空气环境监测系统设计和实现

文章针对当前空气环境监测中面临的监测点分散、布线困难和实时性差等难题,提出来一种在测试区域无线随机分布传感器节点采集空气环境参数,通过协调器与数据中心进行实时处理与分析,远程终端用户可以通过Internet实现对空气质量全天候的实时监测。系统不但有效地克服了传统环境监测系统的低可靠性问题,而且增加了新的监测功能,很好地解决了空气环境实时监测的问题,在条件恶劣和无人坚守的环境监测和事件跟踪中显示了很大的应用价值。

Photocatalytic H2 generation via CoP quantum-dot-modified g-C3N4 synthesized by electroless plating

Photocatalytic water splitting is a promising method for hydrogen production.Numerous efficient photocatalysts have been synthesized and utilized.However,photocatalysts without a noble metal as the co-catalyst have been rarely reported.Herein,a CoP co-catalyst-modified graphitic-C3N4(g-C3N4/CoP)is investigated for photocatalytic water splitting to produce H2.The g-C3N4/CoP composite is synthesized in two steps.The first step is related to thermal decomposition,and the second step involves an electroless plating technique.The photocatalytic activity for hydrogen evolution reactions of g-C3N4 is distinctly increased by loading the appropriate amount of CoP quantum dots(QDs).Among the as-synthesized samples,the optimized one(g-C3N4/CoP-4%)shows exceptional photocatalytic activity as compared with pristine g-C3N4,generating H2 at a rate of 936μmol g^-1 h^-1,even higher than that of g-C3N4 with 4 wt%Pt(665μmol g^-1 h^-1).The UV-visible and optical absorption behavior confirms that g-C3N4 has an absorption edge at 451 nm,but after being composited with CoP,g-C3N4/CoP-4%has an absorption edge at 497 nm.Furthermore,photoluminescence and photocurrent measurements confirm that loading CoP QDs to pristine g-C3N4 not only enhances the charge separation,but also improves the transfer of photogenerated e--h+pairs,thus improving the photocatalytic performance of the catalyst to generate H2.This work demonstrates a feasible strategy for the synthesis of highly efficient metal phosphide-loaded g-C3N4 for hydrogen generation.

A review on tungsten-trioxide-based photoanodes for water oxidation

Photoelectrochemical(PEC)water splitting capable of reducing and oxidizing water into hydrogen and oxygen in a generation mode of spatial separation has gained extensive popularity.In order to effectively produce hydrogen at the photocathode of a PEC cell,the photoanode,where the oxygen evolution reaction occurs,should be systematically developed on priority.In particular,WO3 has been identified as one of the most promising photoanode materials owing to its narrow band gap and high valence band position.Its practical implementation,however,is still limited by excessive electron–hole recombination and poor water oxidation kinetics.This review presents the various strategies that have been studied for enhancing the PEC water oxidation performance of WO3,such as controlling the morphology,introducing defects,constructing a heterojunction,loading a cocatalyst,and exploiting the plasmonic effect.In addition,the possible future research directions are presented.

物联网技术在振动检测系统中的应用

针对当前桥梁振动监测需要人工现场检测、耗费时间长、费用高、不能实时检测的缺点,提出一种基于物联网技术的智能的自动监测桥梁振动的方法。采用Zig Bee无线传感器网络,对桥梁的振动进行实时监测,重点设计了系统节点的硬件和软件以及上位机监控软件。该系统具有低功耗,自组网、可靠性高、使用方便的特点。

Eu^(3+)掺杂CaMoO_4微米荧光粉发光性质的研究

运用化学沉淀的方法合成了不同Eu3+掺杂浓度CaMoO4微米荧光粉样品,详细研究了样品的光致发光性质.研究表明:CaMoO4:Eu可以被蓝光或近紫外光有效激发,实现高色纯度的红光发射;样品的黄昆因子数值数量级为102,是一种弱电声耦合材料;样品中Eu3+的跃迁强度参数(Ω2)随着掺杂浓度的提高而增大,但量子效率却随着掺杂浓度的提高而减小;通过对样品发光的浓度猝灭曲线的分析,确定Eu3+的理想掺杂浓度为25%,并判断出Eu3+在CaMoO4基质中通过交换相互作用实现能量传递.沉淀法制备的CaMoO4:Eu微米荧光粉具有发光色纯度好,制备工艺简单,耗时较少的优点,是一种性能优异的红色荧光粉材料.

第一性原理分子动力学计算核幔边界条件下Ni的结构和动力学性质

采用基于密度泛函理论的第一性原理分子动力学计算了在地幔与外地核(核幔)边界条件下Ni的结构和动力学,发现在核幔条件(4000K,139GPa)下,Ni是一种液态结构.常压下液态Ni的原子排列主要是二十面体序,在压强的作用下,二十面体序有一个增加的过程,当压强大于68GPa后,二十面体序的增强过程发生逆转,大量的完整二十面体结构受到破坏,缺陷二十面体急剧增加.核幔边界条件下的液态Ni形成了一种由完整二十面体、缺陷二十面体、面心以及密排六方等其他原子排列方式并存的复杂结构.我们计算了液态Ni的扩散系数,其数量级大约为109m2/s,与相应条件下Fe的扩散系数的数量级相同.由于核幔边界条件下的高压作用,液态Ni原子比常压和低压下的Ni原子扩散得更慢,且在弛豫过程中出现了β弛豫.

Voigt位型下电介质/反铁磁/电介质结构二次谐波生成非倒易性研究

利用非线性传递矩阵方法研究了Voigt位型下电介质/反铁磁/电介质结构二次谐波生成的非倒易性.研究发现外加静磁场反向和电介质层排序翻转均对二次谐波输出产生影响,出现了二次谐波生成的非倒易性.二次谐波生成非倒易性频率区域在反铁磁共振区,此区间正处于THz频段.随着入射角度的增加,非倒易性的效果越来越明显.研究二次谐波生成的非倒易性,可为反铁磁器件的设计加工提供理论支持.