Results 61 to 70 of about 12,003 (193)
Rare Metals, EarlyView.ABSTRACT Considering the multiple challenges faced by stealth coatings in complex service environments, the development of multifunctional integrated microwave absorbing materials (MAMs) that combine efficient electromagnetic (EM) attenuation with environmental tolerance has become an urgent need. In this work, coral‐like CoNi@Void@C microparticle (MP)
Jiale Wu +8 more
wiley +1 more source
Guangtongxin yanjiu, 2006 研究了双脉冲泵浦情况下,在准相位匹配(QPM)的周期性极化反转的铌酸锂光波导(PPLN)中,基于级联二阶非线性效应———和频与差频效应(SFG+DFG)的全光波长转换。推导了描述SFG+DFG波长转换的理论模型。通过数值模拟,研究了波长转换过程,观察到脉冲传播过程中出现了走离效应与脉冲展宽。研究了器件长度、信号波长、脉宽等参数对波长转换效率的影响。
周敏娟, 孙军强
doaj
Rare Metals, EarlyView.ABSTRACT The development of sodium‐ion batteries (SIBs) is limited by slow charge transfer kinetics and large material volume changes caused by the large radius of Na+. Leveraging the excellent physicochemical properties and unique heterostructures of metal selenides, ultrafine hetero‐CuFeSe2‐CoSe2 nanoparticles are in situ wrapped by ...
Ying Zhu +5 more
wiley +1 more source
Jianzhu Gangjiegou Jinzhan预应力撑杆构件造型优美、省材高效,但由于其柔度较大,易产生多个屈曲模态交互耦合即“交互屈曲”模式的破坏,且交互屈曲对其极限承载力、屈曲性能影响显著。研究了交互屈曲对预应力对称、不对称撑杆构件在轴压、压弯作用下屈曲性能、极限承载力的影响,并据此采用基于回归算法的人工神经网络(ANN)建立了其极限承载力估计模型。研究结果表明,对于预应力撑杆构件,模态交互易造成不稳定后屈曲,且对其极限承载力有显著的削弱效应;该削弱效应是否会产生影响由结构几何参数与参与交互的模态屈曲荷载决定,其削弱程度受结构撑杆不对称性 ...
毋凯冬, 李国强, 常好诵, 邢哲
doaj +2 more sources
Guangtongxin yanjiu, 2008 对双极性光码分多址(OCDMA)系统采用码的单/双极性转换思路,将相关性能更优秀的双极性码应用于传统单极性OCDMA信道中,提出了一种采用双极性完全互补序列的OCDMA编解码方案及系统模型。仿真结果表明,完全互补的OCDMA系统与基于Gold序列的OCDMA系统性能相比有较大的优势。采用完全互补序列作为地址码,可以有效降低OCDMA系统中的多址干扰,提高通信质量。
陈雷 +4 more
doaj
Interface Issues of Inorganic Solid‐State Electrolytes in Secondary Magnesium Batteries
Rare Metals, EarlyView.ABSTRACT Solid‐state magnesium batteries (SSMBs) have gained significant attention as promising candidates for next‐generation safe energy storage systems because of the abundance of magnesium (Mg) in the earth's crust, superior energy density, and inherent nonflammability.
Jiren Wang +9 more
wiley +1 more source
Rare Metals, EarlyView.ABSTRACT Skin wound injuries are often accompanied by bacterial infections and severe inflammation. Especially, M1‐type macrophages at the wound site can trigger a cascade of inflammatory responses, mediating a vicious cycle of inflammation. Meanwhile, hypoxia further exacerbates vascular damage and constriction in the wound microenvironment, thereby ...
Xianfeng Wang +6 more
wiley +1 more source
Rare Metals, EarlyView.ABSTRACT The development of efficient and stable bifunctional catalysts remains a key challenge for green hydrogen production via electrochemical water splitting. In this study, a bimetallic Mo/Fe‐doped CoP2 nanoleaf array anchored on carbon cloth (Mo, Fe‐CoP2@CC) was synthesized from zeolitic imidazolate framework‐L (ZIF‐L) via an ion‐exchange and low‐
Xiangqun Zeng +6 more
wiley +1 more source
Gaoya dianqi, 2003 概述了光学电压传感器的原理与结构类型,并着重计算分析了传感器探头的方形、八边形和圆形晶体分别在平板电极和圆弧电极中的电场分布。模拟计算结果得出,采用不同形状的电光晶体和电极组合,可以改善晶体内外电场分布的均匀性,减弱电场的集聚效应,从而有效地提高耐压和测量的稳定性及准确度。
唐恕, 李仰平, 耿波
doaj
Rare Metals, EarlyView.ABSTRACT As a core component in the electrochemical water splitting system, the cathode catalyst is capable of boosting the kinetics of the hydrogen evolution reaction (HER), while the scarcity and expenditure of current noble metal‐based electrocatalysts seriously restrict the large‐scale commercial development of hydrogen manufacturing devices. Here,
Haiyan He +8 more
wiley +1 more source