摘要：Three-dimensional(3D)printing has attracted increasing research interest as an emerging manufacturing technology for devel-oping sophisticated and exquisite architecture through hierarchical *** has also been employed in various advanced industrial *** development of intelligent biomedical engineering has raised the requirements for 3D printing,such as flexible manufacturing processes and technologies,biocompatible constituents,and alternative ***,state-of-the-art 3D printing mainly involves inorganics or polymers and generally focuses on traditional industrial fields,thus severely limiting applications demanding biocompatibility and *** this regard,peptide architectonics,which are self-assembled by programmed amino acid sequences that can be flexibly functionalized,have shown promising potential as bioinspired inks for 3D ***,the combination of 3D printing and peptide self-assembly poten-tially opens up an alternative avenue of 3D bioprinting for diverse advanced ***,a small but innovative nation,has significantly contributed to 3D bioprinting in terms of scientific studies,marketization,and peptide architectonics,including modulations and applications,and ranks as a leading area in the 3D bioprinting *** review summarizes the recent progress in 3D bioprinting in Israel,focusing on scientific studies on printable components,soft devices,and tissue *** paper further delves into the manufacture of industrial products,such as artificial meats and bioinspired supramolecular architectures,and the mechanisms,physicochemical properties,and applications of peptide ***,Israel contributes significantly to the field of 3D bioprinting and should thus be appropriately recognized.

摘要：柔性可穿戴的紫外线探测器在个体紫外线暴露监测、智能仿生眼和军事领域受到广泛关注.然而,传统不可拉伸的材料和器件结构设计限制了设备在可动态变形的人体皮肤和非平面表面上的精确监测应用和稳定附着.在本研究中,我们提出了基于氧化铜/碳-水凝胶-氧化锌/碳的新型应变隔离异质结构的本征可拉伸(拉伸应变或弯曲高达150%)紫外线探测器,该探测器具有高灵敏度(开/关比为2100%)、高稳定性(大于4000次循环),以及快速响应和恢复时间(分别为1.5和4 s).值得注意的是,该探测器通过水凝胶桥在氧化铜/碳和氧化锌/碳电极之间引入的p-n结能带结构,以及离子导电水凝胶中I^(-)/I_(3)^(-)的电化学反应机制,显著提高了其载流子效率和紫外线响应强度.本文通过集成传感器与所设计的电路板,进一步开发了一种无线紫外线报警系统,用于紫外线强度超标警报.此外,本文还设计了一种光电传感器阵列,并将其用作视网膜假体,以实现对环境紫外线强度的实时监测和成像.本文基于水凝胶基异质结构为开发可穿戴、可拉伸的光电紫外线传感器单元和成像阵列提供了一种新的可行方法.

摘要：Laser powder bed fusion(LPBF)makes it possible for biodegradable zinc(Zn)to be used to produce customized orthopedic *** this research,we investigate the impact of laser power and scanning speed on the development of surface quality,relative densification,and texture during LPBF of Zn *** laser power was able to decrease melt viscosity and surface tension,which improved the metallurgical bonding between adjacent *** and twisted tracks also became continuous and *** speed could controlmolten-pool temperature to restrain grain natural orientation,achieving various crystal orientations and a weakened ***,it further avoided the thermal expansion and contraction caused by excessive energy storage and accumulation in the matrix,thus reducing the generation of high-dislocation *** a result,by selecting a reasonable laser power and scanning speed,the LPBF parts exhibited a flat surface morphology and a high density over 99.5%.Their average hardness,mechanical strength,and elongation reached 50.2 HV,127.8 MPa,and 7.6%,***,the parts displayed a moderate degradation rate and excellent osteogenic *** these results provide a basis for selecting process parameters to optimize the comprehensive properties of LPBF-processed Zn parts for biodegradable applications.

摘要：设计在酸性介质中具有高活性和高稳定性的氧析出反应(OER)催化剂对能量转换和储存技术的发展具有重要意义.然而,在实际OER条件下催化剂的原子结构会发生变化,且目前对其动态活性结构的认识仍然不足.本文中,我们通过退火和蚀刻纳米多孔Co-Ru合金合成了具有优异酸性OER活性和稳定性的原子级Co掺杂纳米多孔Ru O_(2)催化剂.原位X射线吸收光谱证实:蚀刻策略可以在原子级Co掺杂纳米多孔Ru O_(2)的金属中心周围产生丰富的氧空位,从而在实际OER条件下产生收缩的金属-氧配体键.这种动态结构演变降低了催化活性位点在OER过程中的动力学势垒,因而催化剂的催化活性和稳定性大幅提高.本研究结果揭示了催化剂活性结构的原子细节以及它们的结构演化对催化活性的影响.

摘要：This article delivers a robust overview of potential electrode materials for use in symmetrical solid oxide fuel cells(S-SOFCs),a relatively new SOFC *** this end,this article provides a comprehensive review of recent advances and progress in electrode materials for S-SOFC,discussing both the selection of materials and the challenges that come with making that *** article discussed the relevant factors involved in developing electrodes with nano/***,e.g.,non-cobalt and lithiated materials,are only a few of the electrode types now being ***,the phase structure and microstructure of the produced materials are heavily influenced by the synthesis *** into the possibilities and difficulties of the material are *** achieve the desired microstructural features,this article focuses on a synthesis technique that is either the most recent or a better iteration of an existing *** portion of this analysis that addresses the risks associated with manufacturing and the challenges posed by materials when fabricating S-SOFCs is the most *** article also provides important and useful recommendations for the strategic design of electrode materials researchers.

摘要：通过分子动力学模拟研究了纳米多晶316L奥氏体不锈钢在不同峰值应力下的高温蠕变变形行为和蠕变机制.数值模拟结果表明纳米多晶316L奥氏体不锈钢的高温蠕变变形是由位错、晶粒内部和晶界扩散以及晶界滑移之间的交互作用引起.在初始蠕变和稳态蠕变阶段,纳米多晶316L奥氏体不锈钢高温蠕变的主导性机制是晶粒内部和晶界的扩散以及晶界的滑移.在加速蠕变阶段,一些晶界被摧毁后,位错滑移成为纳米多晶316L奥氏体不锈钢的主要蠕变机制.这项工作旨在揭示纳米多晶316L奥氏体不锈钢的高温蠕变机理,为增强型抗蠕变316L奥氏体不锈钢的设计和制造提供指导.

摘要：载体上孤立的Pd原子作为乙炔半加氢反应的催化活性位点,由于具有独特的反应性和高效的金属利用率而备受关注.特别是在金属氧化物表面的不同位点掺杂Pd单原子,可以通过调节其局部配位环境来调控其电子和催化性能.本文采用密度泛函理论计算,研究了TiO_(2)负载Pd单原子的局域配位环境对Pd_(1)/TiO_(2)催化剂上乙炔半加氢反应的活性和选择性的影响.综合考虑反应活性和选择性,发现具有负电荷Pd^(δ-)位点的Pd_(1)Ti_(3)/TiO_(2)四原子单团簇催化剂展现出优异的催化性能.此外,活性和选择性与表面性质如d-带中心指数和表面功函数等密切相关.本文为未来设计可还原氧化物载体上的高效单团簇催化剂以用于类似的多相催化反应提供了理论参考.

摘要：本文介绍了一种基于横向可移动栅极场效应晶体管(LMGFET)的新型微型力传感器的开发。提出了一种精确的电气模型,用于小型LMGFET器件的性能评估,与以前的模型相比,其精度有所提高。采用了一种新型三明治结构,该结构由一个金交叉解耦栅阵列层和两个软光阻层SU-8组成。通过所提出的双差分传感结构,LMGFET横向工作在垂直干扰下的输出电流被大大消除,所提出传感器的相对输出误差从4.53%(传统差分结构)降低到0.01%。提出了一种实用的传感器制造工艺,并对其进行了模拟。基于LMGFET的力传感器的灵敏度为4.65μA·nN^(-1),可与垂直可移动栅极场效应晶体管(VMGFET)器件相媲美,但非线性度提高了0.78%,测量范围扩大了±5.10μN。这些分析为LMGFET器件的电气和结构参数提供了全面的设计优化,并证明了所提出的传感器在生物医学显微操作应用中具有良好的力传感潜力。

摘要：Hybrid manufacturing combines the advantages of Additive manufacturing (AM)and Subtractive manufacturing on a single *** previous research has provided a good background of the manufacturing parameters,the analysis is often carried out separately and there is a lack of combined *** purpose of this research is to examine the influence of the main manufacturing parameters involved in AM and subtracfive processes using different ***,the study is focused on the Material Extrusion process concerning the layer height,fill angle and fill density;as well as two factors related to machining,including stepover and pass *** parameters that were examined include the dimension,hardness, flatness,weight and roughness.A mulfifactofial Design of Experiments was proposed with a total of 64 ***,a statistical analysis was carried out to assess the influence of the different groups on the response ***,a decision table presented and facilitated the selection of parameters depending on the desired objectives,leading to a framework that was applied to a case study for *** decision guide could enable designers and engineers to select the best strategy for a specific application,leading to a more efficient approach for manufacturing.

摘要：分散在纳米碳基底上的分子催化剂由于具有明确的活性位点和结构可调的特点,成为了一类独特的单原子催化剂,有望代替贵金属催化剂用于电催化氧还原反应.本文中,我们开发了一种高活性氧还原催化剂,该催化剂由均匀且密集分散在泡芙状石墨烯载体上的铁酞菁(FePc/PG)构成.泡芙状石墨烯载体由于具有独特的皱褶和球状形貌,具有较大的比表面积和多尺度的孔结构,有利于FePc的高密度负载、活性位点的暴露和催化过程中传质效率的提高.当用旋转圆盘电极评估性能时,FePc/PG表现出优异的半波电位,达0.909 V(相对于可逆氢电极).此外,当用作气体扩散电极时,FePc/PG在高电流密度下表现出优异的高倍率和高功率性能.这项工作为设计纳米碳材料的形貌以及高性能异相分子催化剂提供了有效的策略,有望在多种能源转换和存储技术中得到应用.