Highly Sensitive Mid-Infrared Photodetector Enabled by Plasmonic Hot Carriers in the First Atmospheric Window

The first atmospheric window of 3-5 μm in the mid-infrared（MIR） spectral range pertains to crucial application fields,with particular scientific and technological importance.However,conventional narrow-bandgap semiconductors operating at this band,represented by mercury cadmium telluride and indium antimonide,suffer from limited specific detectivity at room temperature and hindered optoelectronic integration.In this study,a plasmonic hot electron-empowered MIR photodetector based on Al-doped ZnO...     

聚合物基磁性复合微球的研究近况

磁性聚合物微球作为一种新兴起的复合功能材料,由于具有纳米尺寸、超顺磁性、良好的生物相容性、低毒性诸多优点,受到了人们广泛而深入的研究。本文简要介绍了无机磁性粒子的制备方法和磁性聚合物微球的分类,主要对磁性高分子微球的传统制备方法和涌现新方法新技术进行了阐述,并分析了各种制备磁性聚合物微球方法的优缺点及主要影响因素。除此之外,本文也介绍了磁性聚合物微球近年来最新研究成果及应用领域,并对高分子微球未来发展趋势和存在的问题进行了分析。     

碳酸酯把手改构Wang树脂及其性能

基于碳酸酯结构易于亲核脱除的原理, 使用氯甲酸氯甲酯改构Wang树脂, 并探究了改构树脂与首位氨基酸的缩合效率. 实验结果表明, 改构后的Wang树脂与20种Fmoc保护氨基酸均能达到70%以上的缩合效率; 且对于带有较大侧链基团的Fmoc保护氨基酸, 通过降低树脂取代度或延长反应时间可提高其连接率. 为了验证改构后的碳酸酯型树脂在裂解时侧链未受到影响, 设计合成了3种模型肽, 并用温和裂解剂3-吡啶甲醛肟铯盐进行裂解. 实验结果表明, 利用改构树脂能得到侧链全保护的肽片段, 可初步应用到长链困难肽的合成中.     

Tailoring electronic properties of two-dimensional antimonene with isoelectronic counterparts

Using ab initio density functional theory calculations, we explore the three most stable structural phases, namely, α,β, and cubic(c) phases, of two-dimensional(2D) antimonene, as well as its isoelectronic counterparts SnTe and InI. We find that the band gap increases monotonically from Sb to SnTe to InI along with an increase in ionicity, independent of the structural phases. The band gaps of this material family cover the entire visible-light energy spectrum, ranging from 0.26 eV to 3.37 eV, rendering them promising candidates for optoelectronic applications. Meanwhile, band-edge positions of these materials are explored and all three types of band alignments can be achieved through properly combining antimonene with its isoelectronic counterparts to form heterostructures. The richness in electronic properties for this isoelectronic material family sheds light on possibilities to tailor the fundamental band gap of antimonene via lateral alloying or forming vertical heterostructures.     

碳纸负载碳酸氢镍纳米颗粒的无酶葡萄糖电化学传感器

通过一步水热法在碳纸上原位生长碳酸氢镍纳米颗粒,利用粉末X射线衍射和扫描电子显微镜对材料的结构及形貌进行表征,发现碳纸上负载纯相Ni （HCO₃）₂时具有较多的催化活性位点,利于葡萄糖的催化氧化反应进行。循环伏安法和时间-电流响应曲线表明该电极的检测限为0.98 μmol·L^-1,线性范围为2.95~1.02 mmol·L^-1,灵敏度为935 μA·L·mmol^-1·cm^-2,同时具有优异的选择性及稳定性。此外,该传感器能够实现对乳制品中葡萄糖的快速检测。这些结果表明,过渡金属和导电基底的协同作用会增强复合材料整体的导电性能和催化性能。