英国大学生可雇佣性培养研究及其启示——以谢菲尔德哈勒姆大学为例

在可雇佣性能力及其开发实践上,英国高校在就业与就业能力框架的概念与内涵界定、完善就业指导服务、可雇佣性能力植入教学课程、从实际工作中获得经验、雇主参与课程设计、重视创业教育等方面的经验对我国大学生可雇佣性能力培养带来了有益启示。     

宪法性权利对司法认知的束缚：司法认知正当性质疑与正义表达

对于司法认知的效力存在塞耶-威格莫尔理论与摩根-麦考密克理论两种不同的观点。由于司法认知效力问题与被告人由陪审团审判的宪法性权利密切相关,指示陪审团接受法官对结论性事实作出的司法认知可能意味着对犯罪构成直接做出裁定。作出司法认知是否会侵犯刑事被告人的宪法性权利存在着广泛的争议。这种争议不仅在立法过程中存在重大分歧,在司法实践中也莫衷一是。《联邦证据规则》起草者在民事案件中采用摩根-麦考密克理论,但在刑事案件中塞耶一威格莫尔理论却促成了司法认知与宪法性权利的调和。     

对中职学校校本教材编写的分析与探讨

分析目前校本教材开发的各种原因,校本教材现状及存在的问题。编写校本教材过程中必须根据实际的教学需要,遵守职业教育的教学规律和教材编写的基本原则。     

国内翻译补偿研究综述

翻译补偿研究是已引起翻译理论界关注但尚待成熟和规范的一个研究领域。通过收集统计该领域的研究论文,分析本研究的现状与研究前沿,并指出不足与研究中存在的误区,以期促进翻译补偿研究的进一步发展。     

20世纪之初至抗战前的中国法律史教育

20世纪之初,内忧外患之时局、西学东渐以及中国传统史学的近代转捩,均为中国法律史教育新篇章之开启奠定了基础。"壬寅学制"与"癸卯学制"均不同程度为中国法律史学科的创建提供了制度保障。在新学制的语境下,中国法律史教育呈现出短暂的繁荣景象,这种发展态势虽因日本侵华而中断,但依然取得了诸多令人瞩目的成就。就法律史学发展史而言,这一时期属于我国法律史学的萌生阶段,其所取得的诸多成就大大促进了中国法律史学的发展,然而由于时代局限性,其简单模仿日本学界的弊端以及学科建设失范等缺点表现得依然明显,给当时以及后来中国法律史学发展造成诸多不良影响。     

网络环境下大学英语任务型教学

本文分析了网络环境与任务型教学整合的理论依据,进行了网络环境下的任务型教学的改革实践。通过成绩对比、调查问卷与访谈检测了实验成效,并提出下一步研究的方向。     

高校学习型青年干部培养的对策研究

本文从培养高校学习型青年干部的重要性和必要性出发,剖析当前高校学习型青年干部培养中存在的学习简单化、学习观念偏颇、学习内容或缺、学习方式不当等问题,提出高校学习型青年干部的培养要完善学习制度、转变学习观念、深化学习内容、注重学习实效等对策。     

基于微课和翻转课堂的“游戏设计及开发”教学模式研究

传统的游戏设计及开发课程教学模式是老师上课照本宣科,学生课后自己设计游戏时往往感到棘手,缺乏创新思维和创新空间,阻碍了学生的思维能力和创新能力的养成。本文提出将微课教学资源和基于翻转课堂的教学模式统一应用到游戏设计及开发教学中,使学生重视游戏内容的问题性、前沿性和适用性,提高学生的知识迁移能力。     

SAW-driven droplet jetting technology in microfluidic: A review

The introduction of surface acoustic wave (SAW) technology on microfluidics has shown its powerfully controlling and actuating fluid and particle capability in a micro-nano scale, such as fluid mixing, fluid translation, microfluidic pumping, microfluidic rotational motor, microfluidic atomization, particle or cell concentration, droplet or cell sorting, reorientation of nano-objects, focusing and separation of particles, and droplet jetting. The SAW-driven droplet jetting technology enjoys the advantages of simple structure to fabricate with little hindrance, compact size to integrate with other components, high biocompatibility with biological cells or other molecule samples, large force in realizing fast fluidic actuation, and contact-free manipulation with fluid. The realization of this technology can effectively overcome some bottleneck problems in the current micro-injection technology, such as mechanical swear, complicated and bulky structure, and strict limitation of requirements on fluidic characteristics. This article reviews and reorganizes SAW-microfluidic jetting technology from decades of years, referring to the interaction mechanism theory of SAW and fluid, experimental methods of SAW-microfluidic jetting, effects of related parameters on objected pinch-off droplets, and applications of individual structures. Finally, we made a summary of the research results of the current literature and look forward and appraise where this discipline of SAW-microfluidic jetting could go in the future.     

Electro-mechanically controlled assembly of reconfigurable 3D mesostructures and electronic devices based on dielectric elastomer platforms

The manufacture of 3D mesostructures is receiving rapidly increasing attention, because of the fundamental significance and practical applications across wide-ranging areas. The recently developed approach of buckling-guided assembly allows deterministic formation of complex 3D mesostructures in a broad set of functional materials, with feature sizes spanning nanoscale to centimeter-scale. Previous studies mostly exploited mechanically controlled assembly platforms using elastomer substrates, which limits the capabilities to achieve on-demand local assembly, and to reshape assembled mesostructures into distinct 3D configurations. This work introduces a set of design concepts and assembly strategies to utilize dielectric elastomer actuators as powerful platforms for the electro-mechanically controlled 3D assembly. Capabilities of sequential, local loading with desired strain distributions allow access to precisely tailored 3D mesostructures that can be reshaped into distinct geometries, as demonstrated by experimental and theoretical studies of ∼30 examples. A reconfigurable inductive–capacitive radio-frequency circuit consisting of morphable 3D capacitors serves as an application example.