XF30A~*数字多用表校准仪电压、电流测量不确定度的分析与评定

XF30A*数字多用表校准仪是智能化交直、流标准电压、电流校准仪,具有数字显示、误差直读、量程宽、精度高、稳定性好、使用方便等特点,适用于检定、校准四位半数字三用表,各种0.2级、0.5级以下指针式交直流电压、电流表,作为企业计量室三用表检定、校准标准装置被广泛应用。     

光纤光栅形状传感器的研究

传感器总长810mm,直径为2.5mm,4根光纤布喇格光栅(fiber Bragg grating,FBG)互成90°分布在用记忆合金丝(Shap Memory Alloy,SMA)做基材的表面。通过在波分复用的基础上添加光时分复用来改进传感网络布置,提高测量精度;同时,设计了一套封装装置来确保封装时FBG与基材之间的准确定位以及黏结剂能够均匀的涂覆在基材和FBG表面,提高传感器的封装精度。实验结果表明,该FBG形状传感器的测量精度为3.1%。     

泡沫铝三明治板的研究与应用进展

泡沫铝三明治板(Aluminum foam sandwich,AFS)是基于泡沫铝材料开发的一类材料-结构一体化的先进多孔复合结构。AFS是交通运输、建筑以及航空航天等装备结构轻量化的重要材料,具有广阔的应用前景。概述了AFS的几类制备技术的基本原理和研究现状,着重分析了复合预制体制备、合金成分、AFS发泡成型工艺等关键环节中存在的理论和技术难点。介绍了AFS作为结构材料和功能材料的典型应用案例;最后总结提出了AFS材料研究和工程化技术开发的关键点与突破途径。     

PD‐1 Blockade for Improving the Antitumor Efficiency of Polymer–Doxorubicin Nanoprodrug

Chemotherapy is well recognized to induce immune responses during some chemotherapeutic drugs‐mediated tumor eradication. Here, a strategy involving blocking programmed cell death protein 1 (PD‐1) to enhance the chemotherapeutic effect of a doxorubicin nanoprodrug HA‐Psi‐DOX is proposed and the synergetic mechanism between them is further studied. The nanoprodrugs are fabricated by conjugating doxorubicin (DOX) to an anionic polymer hyaluronic acid (HA) via a tumor overexpressed matrix metalloproteinase sensitive peptide (CPLGLAGG) for tumor targeting and enzyme‐activated drug release. Once accumulated at the tumor site, the nanoprodrug can be activated to release antitumor drug by tumor overexpressed MMP‐2. It is found that HA‐Psi‐DOX nanoparticles can kill tumor cells effectively and initiate an antitumor immune response, leading to the upregulation of interferon‐γ. This cytokine promotes the expression of programmed cell death protein‐ligand 1 (PD‐L1) on tumor cells, which will cause immunosuppression after interacting with PD‐1 on the surface of lymphocytes. The results suggest that the therapeutic efficiency of HA‐Psi‐DOX nanoparticles is significantly improved when combined with checkpoint inhibitors anti‐PD‐1 antibody (α‐PD1) due to the neutralization of immunosuppression by blocking the interaction between PD‐L1 and PD‐1. This therapeutic system by combining chemotherapy and immunotherapy further increases the link between conventional tumor therapies and immunotherapy.     

Retracted: Dual Effects of Nanostructuring and Oxygen Vacancy on Photoelectrochemical Water Oxidation Activity of Superstructured and Defective Hematite Nanorods

An Ar atmospheric treatment is rationally used to etch and activate hematite nanoflakes (NFs) as photoanodes toward enhanced photoelectrochemical water oxidation. The formation of a highly ordered hematite nanorods (NRs) array containing a high density of oxygen vacancy is successfully prepared through in situ reduction of NFs in Ar atmosphere. Furthermore, a hematite (104) plane and an iron suboxide layer at the absorber/back‐contact interface are formed. The material defects produced by a thermal oxidation method can be critical for the morphology transformation from 2D NFs to 1D NRs. The resulting hematite NR photoanodes show high efficiency toward solar water splitting with improved light harvesting capabilities, leading to an enhanced photoresponse due to the artificially formed oxygen vacancies.     

Modulating the Surface State of SiC to Control Carrier Transport in Graphene/SiC

Silicon carbide (SiC) with epitaxial graphene (EG/SiC) shows a great potential in the applications of electronic and photoelectric devices. The performance of devices is primarily dependent on the interfacial heterojunction between graphene and SiC. Here, the band structure of the EG/SiC heterojunction is experimentally investigated by Kelvin probe force microscopy. The dependence of the barrier height at the EG/SiC heterojunction to the initial surface state of SiC is revealed. Both the barrier height and band bending tendency of the heterojunction can be modulated by controlling the surface state of SiC, leading to the tuned carrier transport behavior at the EG/SiC interface. The barrier height at the EG/SiC(000‐1) interface is almost ten times that of the EG/SiC(0001) interface. As a result, the amount of carrier transport at the EG/SiC(000‐1) interface is about ten times that of the EG/SiC(0001) interface. These results offer insights into the carrier transport behavior at the EG/SiC heterojunction by controlling the initial surface state of SiC, and this strategy can be extended in all devices with graphene as the top layer.     

Electrochemical corrosion behavior of 2A02 Al alloy under an accelerated simulation marine atmospheric environment

The corrosion behavior of 2A02 Al alloy under simulated marine atmospheric environment has been studied using mass-gain, scanning electron microscope/energy dispersive spectroscopy (SEM/EDS), laser scanning confocal microscopy, X-ray diffraction spectroscopy and localized electrochemical methods. The results demonstrate that the relationship between the corrosion induced mass-gain and the corrosion time is in accordance with the power rule. The mass-gain increases gradually during the corrosion time, while the corrosion rate decreases. With ongoing of the corrosion, corrosion products film changed from a porous to a compact structure. The various spectroscopic data show that the corrosion products films composed mainly of Al(OH)₃, Al₂O₃ and AlCl₃. The electrochemical corrosion behavior of the 2A02 Al alloy was studied by electrochemical impedance spectroscopy (EIS).     

Evaluation of hydrogels for soft tissue adhesives <Emphasis Type="Italic">in vitro</Emphasis> and <Emphasis Type="Italic">in vivo</Emphasis> analyses

In this study, natural materials (sodium alginate, dextran, gelatin and carboxymethyl chitosan) were modified to get aldehyde components and amino components. Upon mixing the two-component solutions together, four kinds of Schiff base hydrogels formed successfully within 5-300 s and could seal the wound tissue. The cytotoxicity tests of hydrogel extraction solution confirmed that the hydrogels are nontoxic materials. The adhesive ability was evaluated in vivo by measuring the adhesive strength after sealing the skin incisions on the back of rats. All the hydrogels showed higher adhesive strength than that of commercial fibrin glue and the blank control. The histological staining observation by hematoxylin and eosin staining (HE) and Masson’s trichrome staining (MTC) methods suggested that the hydrogels had good biocompatibility and biodegradation in vivo. They have only normal initial inflammation to skin tissue and could improve the formation of new collagen in the incision section. So, the prepared hydrogels were both safe and effective tissue adhesive, which had the great potentials to be used as skin tissue adhesive.     

基于无线传感器网络的比例导引优化信息融合研究

在分析反舰导弹比例导引控制规律的基础上,将无线传感器网络信息融合思想引入到比例导引优化辅助决策控制过程中,通过将无线传感器网络信息融合中的数据、特征、决策概念对应于比例导引的具体数学模型,构建了基于无线传感器网络的比例导引优化信息融合辅助决策架构;利用VB6.0语言对基于无线传感器网络辅助决策的反舰导弹优化信息融合制导控制规则进行了模拟仿真,命中距离缩短约37.1%,命中时间节省约10.9%;仿真实验结果实现了反舰导弹自适应优化比例系数的比例制导律,验证了该方法的有效性。