Porous bismuth nanocrystals with advanced sodium ion storage property

Bismuth-based materials are ideal electrodes for sodium-ion batteries(SIBs) due to their high capacity and low cost. However, conventional solid bismuth materials still suffer from severe volume expansion during the reaction process, which hinders its application. Herein, single-crystal bismuth nanospheres with diameters in the range of200–400 nm were successfully prepared with the Na–Bi alloying mechanism studied using in-situ XRD, which confirms a stepwise process of Bi→NaBi→Na3Bi with large v...     

Design and implementation of instruction-driven and data-driven self-reconfigurable cell array

The reconfigurable chip, which integrates the advantages of high performance, high flexibility,high parallelism, low power consumption, and low cost, has achieved rapid development and wide application. Generally, the control part and the computing part of algorithm is accelerated based on different reconfigurable architectures, but it is difficult to obtain overall performance improvement.For improving efficiency of reconfigurable structure both for the control part and the computing part,a hyb...     

一种基于极值特征值之差的全盲多天线频谱感知算法

提出了一种新的基于接收信号取样协方差矩阵（SCM）极值特征值之差的多天线频谱感知算法BDDEE，其以SCM的最大最小特征值之差与接收信号平均能量之比作为感知判决量，在检测过程中摆脱了对噪声方差的依赖，且无须使用主用户信号及无线传输信道等相关参数.在此基础上，基于有限维Wishart随机矩阵有序特征值分布的相关结果，从理论上提出了一种精确的虚警概率和判决门限的分析和计算方法；更进一步，考虑到次级用户计算和存储资源的限制，利用高维Wishart随机矩阵中极值特征值的分布理论，通过融合最大和最小特征值极限分布所对应的判决门限，提出了一种低计算复杂度的判决门限计算方法.综合考虑检测性能和虚警性能指标来看，新算法比经典的CAV、MME和DMME算法具有更优的感知性能，在样本数目有限的条件下能获得更加稳健的检测结果，数值仿真结果证明了所提BDDEE算法的有效性.