高中语文课堂互动教学的研究

随着改革开放的潮流，教育事业的飞速发展，静态课堂已经不再被人们看好。取而代之的是一种全新的教学理念，即“动态”课堂。就拿高中的语文教学来说，互动教学不仅能激发学生学习语文的兴趣，而且能加深学生对文章的理解，可谓是一举两得。那么如何实现课堂互动呢？本文对此问题进行探讨。

农用挂车轮毂制动鼓通用检具

农用挂车轮毂制动鼓通用检具张正坤，裴新民，段树铭对农用挂车的轮毂、制动鼓的形位公差检验是有效控制此两零件质量的关键内容。目前各省区农机鉴定质检站对农用挂车的检验的业务量很大，如新疆农机质检站就要占到总检验业务的五分之一以上，受检的挂车型号规格从１吨到...

丝网印刷柔性电子器件

有机电子器件的主要优势之一是溶液可处理性,这使得可以通过多种印刷方法制备有机电子器件。丝网印刷作为一种十分成熟的印刷方法,被广泛应用于微电子器件的制备。本文主要从丝网印刷的组成、影响丝网印刷精密度的因素以及丝网印刷在场效应晶体管、太阳能电池、有机发光二极管等柔性电子器件制备中的应用分别作以介绍,并对目前丝网印刷在印刷柔性电子器件中存在的困难和挑战作以总结。

疏水基底表面可控生长有机单晶阵列用于高性能晶体管

有机场效应晶体管(OFETs)、有机发光二极管等光电器件有望实现低成本柔性光电子应用,但低成本潜力取决于基于溶液法大面积沉积有机半导体单晶(OSSC)阵列的能力.然而,差的表面润湿行为和复杂的流体动力学过程限制了溶液沉积大面积OSSC阵列.本文中,我们通过添加微量的表面活性剂改善了润湿性能和流体干燥动力学,并增强了有机溶液对疏水表面的黏附力;将聚二甲基硅氧烷模板的凹槽结构作为限域空间用于OSSCs的成核、结晶和生长,最终制备了大面积OSSC阵列.这种策略对材料和图案有较好的普适性.基于OSSC阵列的OFETs表现出良好的性能和均一性.这些结果将为有机单晶器件的集成应用提供更多的机会.

CsPbBr_(3)quantum dots/PDVT-10 conjugated polymer hybrid film-based photonic synaptic transistors toward high-efficiency neuromorphic computing

Photonic synaptic transistors are promising neuromorphic computing systems that are expected to circumvent the intrinsic limitations of von Neumann-based computation.The design and construction of photonic synaptic transistors with a facile fabrication process and highefficiency information processing ability are highly desired,while it remains a tremendous challenge.Herein,a new approach based on spin coating of a blend of CsPbBr_(3) perovskite quantum dot(QD)and PDVT-10 conjugated polymer is reported for the fabrication of photonic synaptic transistors.The combination of flat surface,outstanding optical absorption,and remarkable charge transporting performance contributes to high-efficiency photon-to-electron conversion for such perovskite-based synapses.High-performance photonic synaptic transistors are thus fabricated with essential synaptic functionalities,including excitatory postsynaptic current(EPSC),paired-pulse facilitation(PPF),and long-term memory.By utilizing the photonic potentiation and electrical depression features,perovskite-based photonic synaptic transistors are also explored for neuromorphic computing simulations,showing high pattern recognition accuracy of up to 89.98%,which is one of the best values reported so far for synaptic transistors used in pattern recognition.This work provides an effective and convenient pathway for fabricating perovskite-based neuromorphic systems with high pattern recognition accuracy.