基于TOPSIS模型的机场网络节点重要度评估

在机场网络中单个机场节点的失效往往会对其他的节点产生影响,特别是关键节点的失效会波及整个网络.准确客观的识别重要节点机场关乎整个机场网络的安全运营.本文分析了机场网络拓扑特性中的度、集聚系数和接近度指标,考虑了机场旅客吞吐量和所在城市人口等交通经济特性指标,使用熵权法确定权重的基础上,应用TOPSIS法构建综合评价体系模型,最后以华东地区机场网络为例进行节点重要度排序.结果表明与单一指标的评估结果相比,该方法更加全面客观的确定不同属性指标的权重,避免了不同指标取值的差异性,使评价更加全面,更符合机场网络实际运营情况.     

多孔氮化硼掺杂聚吡咯-2,3,3-三甲基吲哚固相微萃取涂层的制备及多环芳烃的检测

多环芳烃(PAHs)是持久性有机污染物中的一种，大部分具有较强的致癌、致畸和致突变性，对生态环境和人类健康易造成严重威胁。由于环境样品基质复杂且其中PAHs含量低，因此在仪器分析之前需要对环境样品进行必要的前处理。萃取材料的特性是决定大部分前处理技术萃取效率的关键。基于此，本文以低成本且富含较多官能团的吡咯(py)、2,3,3-三甲基吲哚(2,3,3-TMe@In)为单体，多孔氮化硼为掺杂物，采用电化学循环伏安法制备出多孔氮化硼掺杂聚吡咯-2,3,3-三甲基吲哚(Ppy/P2,3,3-TMe@In/BN)复合涂层，通过扫描电子显微镜、热稳定性分析、傅里叶红外光谱等手段对Ppy/P2,3,3-TMe@In/BN进行表征，结果表明：该涂层呈现出多孔、多褶皱的枝状结构，该结构有利于增加涂层的比表面积，从而实现对PAHs的大量富集；在320℃解吸温度下，涂层材料的色谱基线基本稳定，表明该涂层具有良好的热稳定性。将其修饰在不锈钢丝表面制成固相微萃取涂层，结合气相色谱-氢火焰离子化检测器，对影响萃取和分离萘(NAP)、苊(ANY)、芴(FLU)3种PAHs的条件进行优化，建立了用于以上3种PAHs...     

石墨烯负载的氧配位钴单原子稳定金属锂负极

Lithium (Li)-based batteries are the dominant energy source for consumer electronics, grid storage, and electrified transportation. However, the development of batteries based on graphite anodes is hindered by their limited energy density. With its ultrahigh theoretical capacity (3860 mAh∙g⁻¹), low redox potential (−3.04 V), and satisfactorily low density (0.54 g∙cm⁻³), Li metal is the most promising anode for next-generation high-energy-density batteries. Unfortunately, the limited cycling life and safety issues raised by dendrite growth, unstable solid electrolyte interphase, and "dead Li" have inhibited their practical use. An effective strategy is to develop a suitable lithiophilic matrix for regulating initial Li nucleation behavior and controlling subsequent Li growth. Herein, single-atom cobalt coordinated to oxygen sites on graphene (Co-O-G SA) is demonstrated as a Li plating substrate to efficiently regulate Li metal nucleation and growth. Owing to its dense and more uniform lithiophilic sites than single-atom cobalt coordinated to nitrogen sites on graphene (Co-N-G SA), high electronic conductivity, and high specific surface area (519 m²∙g⁻¹), Co-O-G SA could significantly reduce the local current density and promote the reversibility of Li plating and stripping. As a result, the Co-O-G SA based Li anodes exhibited a high Coulombic efficiency of 99.9% at a current density of 1 mA∙cm⁻² with a capacity of 1 mAh∙cm⁻², and excellent rate capability (high current density of 8 mA∙cm⁻²). Even at a high plating capacity of 6 mAh∙cm⁻², the Co-O-G SA electrode could stably cycle for an ultralong lifespan of 1300 h. In the symmetric battery, the Co-O-G SA based Li anode (Co-O-G SA/Li) possessed a stable voltage profile of 18 mV for 780 h at 1 mA∙cm⁻², and even at a high current density of 3 mA∙cm⁻², its overpotential maintained a small hysteresis of approximately 24 mV for > 550 h. Density functional theory calculations showed that the surface of Co-O-G SA had a stronger interaction with Li atoms with a larger binding energy, −3.1 eV, than that of Co-N-G SA (−2.5 eV), leading to a uniform distribution of metallic Li on the Co-O-G SA surface. More importantly, when matched with a sulfur cathode, the resulting Co-O-G SA/lithium sulfur full batteries exhibited a high capacity of 1002 mAh∙g⁻¹, improved kinetics with a small polarization of 191 mV, and an ultralow capacity decay rate of 0.036% per cycle for 1000 cycles at 0.5C (1C = 1675 mA∙g⁻¹) with a steady Coulombic efficiency of nearly 100%. Therefore, this work provides novel insights into the coordination environment of single atoms for the chemistry of Li metal anodes for high-energy-density batteries.     

基底上薄膜结构的非线性屈曲力学进展

基底上薄膜结构中的过大残余压应力常常通过屈曲不稳定性诱发薄膜结构和功能的失效。屈曲不稳定性、演化与斑图形成是近年来非线性力学研究的热点。此类屈曲不稳定性受薄膜-基底的力学性质以及界面相互作用影响，进而呈现出复杂的屈曲模式如褶皱、翘曲和折痕等。论文简要综述褶皱、翘曲和折痕等屈曲模式的形成机制、影响因素和后屈曲形貌相关方面的进展。褶皱部分，重点介绍了褶皱的形成、多级褶皱结构、局域化的褶皱、各向异性褶皱和曲面上的褶皱。翘曲部分，介绍了翘曲结构包括一维翘曲结构、“电话线”屈曲泡，网络状屈曲泡等的形成与生长过程，并讨论了曲面几何、界面滑移、开裂等因素的影响。折痕及其它复杂屈曲模式部分，介绍了折痕、叠痕及隆起失稳的形成机制与临界条件.     

化学法改性煤沥青脱除苯并芘的研究

在管式反应器中采用苯甲酸、聚乙二醇、固体古马隆树脂（S）、液体古马隆树脂（L）为添加剂来降低煤沥青中有害物质苯并芘的含量，以期使得煤沥青可绿色化应用。采用紫外-可见分光光度计分析煤沥青中苯并芘含量。考察了反应温度、反应时间、添加剂添加量、催化剂等工艺条件对添加剂脱除煤沥青中苯并芘的影响。结果表明，不同工艺条件能降低煤沥青中苯并芘的含量。在优化条件下，不同添加剂对苯并芘脱除率由高到低依次为：液体古马隆树脂、聚乙二醇、苯甲酸和固体古马隆树脂。分析其反应机理，这与催化剂的酸性相关，发生亲电取代反应。结果表明，液体古马隆树脂（L）在催化剂存在下对煤沥青中苯并芘脱除率可达73.0%，显示了良好的应用前景。     

航天器空间静电效应研究进展

航天器在轨运行过程中面临的空间环境复杂多变，高能电子、等离子体环境、低气压、大温差等环境因素会引起航天器发生静电带电和放电效应，对航天器的安全运行造成严重影响。基于国内外试验数据和案例分析了空间环境引起的航天器故障，从数值仿真软件、地面模拟技术、强场诱发放电以及防护技术等方面介绍了空间环境作用下航天器充放电效应研究进展，对我国目前研究差距和未来研究方向进行了展望。研究表明:我国航天器充放电效应防护技术研究取得了进步，下一步重点针对空间站、深空探测、探月工程等新任务，进一步拓展空间环境作用下航天器充放电效应机理和防护新技术研究，为提升我国航天器的安全性和可靠性提供技术支撑。     

北斗用户机复杂电磁环境适应性试验评估方法

为精确评价北斗用户机复杂电磁环境适应能力, 在分析北斗用户机工作机理及易攻击性的基础上, 构建了北斗用户机面临的战场复杂电磁环境, 进行了电磁干扰对北斗用户机信号捕获、跟踪环节影响的仿真和评估方法研究, 得到了某型北斗用户机定位成功率和通信成功率与电磁环境复杂度的关系, 对北斗用户机的推广应用具有重要的借鉴意义。