C36填充单壁碳纳米管的结构和电子性质

The structures and electronic properties for C36 encapsulated in four single-wall armchair carbon nanotubes (C36@(n,n), n=6-9) were calculated using ab initio self-consistent field crystal orbital method based on density functional theory. The calculations show that the interwall spacing between the carbon nanotube and C36 plays an important role in the stabilities of resultant structures. The optimum interwall spacing is about 0.30 nm and the tubes can be considered as inert containers for the encapsulated C36. The Fermi levels and relative position of energy bands also have something to do with the interwall spacing. The shifts of Fermi level and C36-derived electron states modulate the electron properties of these structures. The extra electrons fill the bands of C36@(8,8) with the optimum interwall spacing almost in a rigid-band manner.     

用分子轨道理论研究NO气体在TiO2表面吸附

根据一氧化氮(NO)气体在二氧化钛(TiO₂)表面吸附和脱附的实验结果, 揭示了气体脱附量的变化规律. 利用MOPAC 和GAUSSIAN分子轨道理论计算了在TiO₂(110)表面上吸附NO分子的原子簇模型, 电荷分布以及原子簇的能级, 推断了NO在TiO₂(110)表面吸附的稳定性.     

Controlling a sine wave gating single-photon detector by exploiting its filtering loophole

GHz single-photon detector(SPD) is a crucial part in the practical high speed quantum key distribution(QKD) system.However, any imperfections in a practical QKD system may be exploited by an eavesdropper(Eve) to collect information about the key without being discovered. The sine wave gating SPD(SG-SPD) based on InGaAs/InP avalanche photodiode,one kind of practical high speed SPD, may also contain loopholes. In this paper, we study the principle and characteristic of the SG-SPD and find out the filtering loophole of the SG-SPD for the first time. What is more, the proof-of-principle experiment shows that Eve could blind and control Bob's SG-SPD by exploiting this loophole. We believe that giving enough attention to this loophole can improve the practical security of the existing QKD system.     

高振实密度圆饼状LiFePO4/C的制备及电化学性能

以乙二醇为溶剂,采用溶剂热法一步合成圆饼状LiFePO₄,然后以葡萄糖为碳源与合成的LiFePO₄前躯体高温烧结得到碳包覆的LiFePO₄/C复合材料,其振实密度高达1.3 g·cm^-3。采用X射线衍射(XRD)、扫描电子显微镜(SEM)和透射电子显微镜(TEM)对LiFePO₄/C复合材料进行了物相和形貌表征,研究结果表明制备得到的LiFePO₄呈圆饼状,且生成的圆饼是由单晶LiFePO₄纳米片堆积而成。此外,LiFePO₄颗粒表面碳层包覆均匀。将制备的LiFePO₄/C用作锂离子电池正极材料,电化学性能测试表明其具有高的充放电比容量(在0.1C时放电,其初始放电比容量为157.7 mAh·g^-1)与良好的循环性能(500次循环后容量保持率为82.4%)。     

Medical applications of biopolyesters polyhydroxyalkanoates

Microbial polyhydroxyalkanoates(PHAs) are a family of biopolyesters produced by many wild type and engineered bacteria.PHAs have diverse structures accompanied by flexible thermal and mechanical properties.Combined with their in vitro biodegradation,cell and tissue compatibility,PHAs have been studied for medical applications,especially medical implants applications,including heart valve tissue engineering,vascular tissue engineering,bone tissue engineering,cartilage tissue engineering,nerve conduit tissue engineering as well as esophagus tissue engineering.Most studies have been conducted in the authors’ lab in the past 20+ years.Recently,mechanism on PHA promoted tissue regeneration was revealed to relate to cell responses to PHA biodegradation products and cell-material interactions mediated by microRNA.Very importantly,PHA implants were found not to cause carcinogenesis during long-term implantation.Thus,PHAs should have a bright future in biomedical areas.     

高温氟化盐对熔盐堆用材料的腐蚀行为研究进展

氟化物熔盐在熔盐堆(MSR)中可用作为核燃料载体和冷却剂,其独特热物理化学性质能极大提高MSR的传热效率。但MSR高温和强腐蚀条件对材料的选择使用要求非常苛刻,特别是氟化物熔盐在高温下对结构材料的腐蚀直接关系到MSR的安全运行和使用寿命,成为制约MSR应用发展的关键。本文综述了LiF-NaF-KF(Flinak)和LiF-BeF2(Flibe)熔盐与金属合金材料、碳材料及陶瓷材料腐蚀行为方面的研究进展,对材料在不同条件下腐蚀行为的机理进行了分析。研究发现,应用于MSR的高镍基合金及石墨材料存在着高温腐蚀性及机械性能差等弱点。未来新型高镍基合金、C/C复合材料及新型陶瓷材料(SiC及其复合材料、其他陶瓷材料)有望在氟化物熔盐体系中获得应用,并最终解决MSR用材料的困惑,实现MSR快速工业化发展。     

V掺杂二维MoS_2体系气体吸附性能的第一性原理研究

以芥子气和沙林为代表的毒剂具有毒性强、扩散快的特点,是一类杀伤力强、难以防护的化学战剂,对其快速高效检测是一项具有挑战性的课题.本文基于第一性原理计算方法研究了V掺杂对二维MoS_2气敏性能影响的机理,发现V原子向二维MoS_2的掺杂过程为自发的放热反应, V原子可以稳定掺杂于二维MoS_2超胞结构中的S空位上.掺杂进入二维MoS_2体系的V原子作为施主中心向周围Mo原子给出电子,从而提高了材料的导电能力.吸附能、吸附距离和吸附过程中的电子转移计算结果表明V的掺杂提高了二维MoS_2对气体分子的吸附能力,增强了吸附质分子与基底表面的电子相互作用,从而提高了二维MoS_2的气敏性能.     

新药唑来膦酸钠的合成工艺改进

在离子液体{[bmin]BF4}中,以咪唑-1-基乙酸盐酸盐为原料,通过缩合和水解反应合成了新药唑来膦酸钠,总收率60.0%,纯度99.8%,其结构经1HNMR和IR表征。[bmin]BF4可回收套用。     

孪晶对多晶纯钛塑性变形影响的实验研究

本文介绍了不同温度下多晶纯钛试件的单调拉伸、压缩试验和不同应变的压缩加卸载试验及其结果,同时介绍了拉断试样以及不同压缩应变下卸载试样的金相观察结果。通过直接比较不同温度下多晶纯钛的单调拉伸、压缩试验结果以及相应的金相分析,得到了由孪晶单独引起的流动应力的增加与应变之间的定量关系。本文还根据Hall-Petch关系和孪晶体积分数的演化方程,建立了孪晶引起的流动应力的增加与应变之间的唯象解析关系。试验结果表明此唯象关系较好地描述了孪晶对多晶纯钛塑性变形的影响。     

土壤中重金属元素检测的质量认证

探讨了土壤中重金属检测能力验证的质量控制措施,为确保能力验证结果的准确性及不断提高实验室的检测技术水平提供参考.