面向空耦电声换能器应用的高性能FEP/PTFE复合膜压电驻极体

压电驻极体(也称为铁电驻极体)是一类具有强压电效应的微孔结构驻极体材料,具有柔韧、低密度、低特性声阻抗等特征,是制备柔性空气耦合声电换能器的理想材料.针对器件对高灵敏度和高温工作环境的应用需求,本文报道高性能氟化乙丙烯/聚四氟乙烯(FEP/PTFE)复合膜压电驻极体的制备和性能表征.研究结果表明,FEP/PTFE膜的特...     

密度泛函理论研究草甘膦在纯的, 金属原子掺杂石墨烯表面的吸附机理

本研究采用密度泛函理论方法详细讨论了纯的石墨烯及Ti, Fe, Al, Ca原子掺杂石墨烯吸附草甘膦的机理.通过它们之间的吸附能,差分电荷密度,布居电荷,态密度分析发现草甘膦可以被纯的石墨烯及金属原子掺杂石墨烯不同程度地吸附.纯的石墨烯对草甘膦的吸附作用远不及掺杂石墨烯,其中,草甘膦在Ca掺杂石墨烯表面有最强相互作用.这是因为草甘膦与纯的石墨烯之间主要形成了-P=O…π,-COOH…π和-OH…π非共价的相互作用,而与掺杂石墨烯之间主要形成了Metal-O“单齿”和O-Metal-O“双齿”共价相互作用.本研究结果希冀为石墨烯在环境保护方面的应用提供有价值的理论指导.     

模型化研究 HBx 与 CREB 诱发肝癌的一种物理机制

本文基于Hill动力学与Michaelis-Menten方程,建立理论模型研究乙型肝炎病毒(HBx)通过与环磷腺苷效应元件结合蛋白(CREB)相互作用促进肝癌(HCC)发生发展的一种物理机制.理论模型考虑HBx-CPAP (中心体P4.1相关蛋白)-AKT(蛋白激酶B)-GSK3(糖原合成酶激酶3)-P53通路信号传导特性.研究发现,CREB对HBx有扩增效应,较高浓度的CREB使得P53抑癌功能下降,并促使炎性因子(NF-κB)呈现出二次增长,为HBx诱发HCC提供了炎性微环境. CREB还会调控AKT呈现二次增长,影响细胞糖原代谢,在一定程度上促使了HCC的发生发展.理论结果符合实验,进一步揭示了HBx通过与CREB相互作用促进HCC发生发展的一种物理机制,可为设计阻断肝炎向肝癌转变通路的治疗方案提供理论依据.     

葛根素与乙酰胆碱酯酶作用的分子动力学模拟

旨在阐明葛根素与乙酰胆碱酯酶(AChE)的分子作用机制,并为基于葛根素的类似物的AChE抑制剂的研发提供参考.运用AutoDock 4.2进行葛根素与AChE的分子对接,采用YASARA进行分子动力学模拟,利用MMPBSA.py模块计算复合体系的结合自由能,分析氨基酸的能量贡献.结果显示,葛根素与AChE对接体系含有4个氢键,2个π-π键. 5 ns后,体系均方根偏差(RMSD)趋于平衡,体系结合自由能为-18.19 kcal/mol.促体系结合的主要作用力是范德华力、静电作用力,非溶剂化能是主要的结合阻力.能量贡献最大的残基依次为Asn533、Lys530、Ala534、Pro529.这些研究为新型抑制剂的研发提供理论参考.     

铒掺杂硼酸盐玻璃中的激发态阱

铒掺杂硼酸盐玻璃广泛应用于发光材料中,研究其发光动力学性质对于优化和提高其发光效率具有重要意义. 本文采用传统的熔融淬火法合成了摩尔比为2%的掺铒硼酸盐玻璃,并在低于硼酸盐玻璃转变温度(260 °C)下退火,退火处理后的掺铒硼酸盐玻璃光学性质得到了一定程度的提高. 硼酸盐玻璃未掺杂和掺杂Er³⁺的热性能采用差示扫描量热法以10 °C/min的速度进行测量. 同时还测量了掺铒硼酸盐玻璃发光机理的吸收光谱、激发光谱、稳态发射光谱、瞬态发射光谱和衰减动力学曲线. 实验结果表明Er³⁺在不同激发波长下556 nm处发射时具有不同的寿命,在掺铒硼酸盐玻璃中可能存在激发态阱,利用实验数据得到了激发态阱的深度为0.14 eV.     

锐钛矿和金红石二氧化钛中光生载流子的超快动力学：电声相互作用研究

本文结合玻尔兹曼输运方程和电声散射速率计算研究锐钛矿和金红石二氧化钛中光生载流子的超快动力学过程. 其中,动力学模拟所需的结构参数均通过第一性原理计算获得. 结果表明,由于存在强Fr?hlich型电声耦合,纵光学声子模对两个晶相的能量弛豫过程均有十分显著的影响,但是两个晶相的弛豫机理却表现出明显的差异. 对于单条导带内的弛豫过程,锐钛矿和金红石的能量弛豫时间分别为24.0 fs和11.8 fs,前者约为后者的二倍. 这一差异来源于两个晶相中不同的电子扩散分布以及不同的声学模散射贡献. 对于涉及多条导带的弛豫过程,预测的锐钛矿和金红石的总体弛豫时间分别为47 fs和57 fs,其相对大小与单条导带的情况相反. 分析表明金红石相弛豫较慢是因为存在多个速率控制步骤. 这些发现为调控电子动力学以及设计高效的二氧化钛器件提供了有价值的信息.     

六水氯化镁脱水蓄热过程的数值模拟

六水氯化镁(MgCl2·6H2O)由于较强的吸附能力、低反应焓以及较高的储热效率,成为当今热化学储能常用的材料.建立六水氯化镁脱水蓄热过程二维数值模型,将质量、动量、能量与化学反应物理场进行耦合,研究反应床的温度与转换程度分布,同时对反应器内自由空气流道的布置进行结构优化设计.讨论了入口流体流速和温度、材料孔隙率以及导...     

High-energy picosecond single-pass multi-stage optical parametric generator and amplifier

We demonstrate a new management of multi-stage optical parametric generator(OPG)and amplifier(OPA)to obtain high-energy picosecond sources with high beam quality.The setup of multi-stage OPG-OPA requires mode-matching between the pump beam and the stable mode of the OPG-OPA.In a proof-of-principle experiment,the single-pass multi-stage OPG-OPA consists of three walk-off compensated KTP crystal pairs and two lenses,pumped by an 86 ps,1064 nm 10 kHz picosecond laser.The signal light at~1.77μm has an average output power of 502 mW with record energy up to 50.2μJ.The beam quality factor of the signal light can be improved toM²_x ×M²_yafter filtering out about 40%signal power.To the best of our knowledge,it is the first picosecond single-pass multi-stage OPG-OPA pumped at kHz regime.     

Three-dimensional vertical ZnO transistors with suspended top electrodes fabricated by focused ion beam technology

Three-dimensional(3D)vertical architecture transistors represent an important technological pursuit,which have distinct advantages in device integration density,operation speed,and power consumption.However,the fabrication processes of such 3D devices are complex,especially in the interconnection of electrodes.In this paper,we present a novel method which combines suspended electrodes and focused ion beam(FIB)technology to greatly simplify the electrodes interconnection in 3D devices.Based on this method,we fabricate 3D vertical core-double shell structure transistors with ZnO channel and Al₂O₃ gate-oxide both grown by atomic layer deposition.Suspended top electrodes of vertical architecture could be directly connected to planar electrodes by FIB deposited Pt nanowires,which avoid cumbersome steps in the traditional 3D structure fabrication technology.Both single pillar and arrays devices show well behaved transfer characteristics with an Ion/Ioff current ratio greater than 106 and a low threshold voltage around 0 V.The ON-current of the 2×2 pillars vertical channel transistor was 1.2μA at the gate voltage of 3 V and drain voltage of 2 V,which can be also improved by increasing the number of pillars.Our method for fabricating vertical architecture transistors can be promising for device applications with high integration density and low power consumption.     

Spin current transmission in Co1-xTbx films

We investigate the spin to charge conversion phenomena in Y₃Fe₅O₁₂/Pt/Co_1-xTb_x/Pt multilayers by both the spin pumping and spin Seebeck effects.We find that the spin transport efficiency is irrelevant to magnetization states of the perpendicular magnetized Co;Tb;films,which can be attributed to the symmetry requirement of the inverse transverse spin Hall effect.Furthermore,the spin transmission efficiency is significantly affected by the film concentration,revealing the dominant role of extrinsic impurity scattering caused by Tb impurity.The present results provide further guidance for enhancing the spin transport efficiency and developing spintronic devices.