Graphene Aerogel in the Classroom: A Tiered Approach to Learning and Analysis Using Scanning Electron Microscopy

IF 2.5 3区 教育学 Q2 CHEMISTRY, MULTIDISCIPLINARY
TaNia Donatto, Daniella Duran*, Abigail Carbone and Debbie G. Senesky, 
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引用次数: 0

Abstract

Graphene aerogel (GA) is an ultralightweight material that has garnered much attention within recent decades due to its unique properties and wide-ranging applications from environmental protection to electronic devices. However, it is not well-known outside of those who study it. A common tool for characterizing the microstructure of GA and materials generally on the micrometer and nanometer scales is scanning electron microscopy (SEM), a tool educators can access via the Remotely Accessible Instruments for Nanotechnology (RAIN) and Hitachi programs. Partnered with this technique, the novel attributes of GA make it a good candidate for introducing nanoscience, as well as engineering concepts and analysis, into the classroom across a variety of age groups prior to advanced postsecondary education. This activity outlines a framework for a tiered approach to learning, allowing educators to build off each tier to build understanding, incorporate new concepts into current lessons, and tailor content to the students’ resource capacity and background knowledge. Multiple modes of learning are outlined across three tiers, where instructors are encouraged to pick and choose what suits their learning environments the best. To demonstrate this, two cohorts of students, from local community colleges and a local elementary school, participated in a subset of the activities as a part of Stanford University’s nano@stanford outreach events. Both groups thoroughly engaged with the activity and, through surveys, indicated an overall trend that their interest and understanding of nanoscience and nanotechnology increased.

Abstract Image

课堂上的石墨烯气凝胶:使用扫描电子显微镜进行学习和分析的分层方法
石墨烯气凝胶(GA)是一种超轻材料,因其独特的性能和从环境保护到电子设备的广泛应用,近几十年来备受关注。然而,它并不为研究它的人所熟知。扫描电子显微镜(SEM)是表征 GA 和材料微观结构(一般为微米和纳米尺度)的常用工具,教育工作者可以通过纳米技术远程访问仪器(RAIN)和日立计划获得这种工具。与这一技术相结合,GA 的新颖属性使其成为将纳米科学以及工程概念和分析引入中学后高级教育之前不同年龄段课堂的理想选择。本活动概述了分层学习方法的框架,使教育者能够在每一层的基础上加深理解,将新概念纳入当前课程,并根据学生的资源能力和背景知识调整内容。三个分层概述了多种学习模式,鼓励教师选择最适合自己学习环境的模式。为了证明这一点,来自当地社区学院和一所当地小学的两批学生参加了斯坦福大学 nano@stanford 外展活动的一个子活动集。两组学生都充分参与了活动,并通过调查表明,他们对纳米科学和纳米技术的兴趣和了解总体上呈上升趋势。
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来源期刊
Journal of Chemical Education
Journal of Chemical Education 化学-化学综合
CiteScore
5.60
自引率
50.00%
发文量
465
审稿时长
6.5 months
期刊介绍: The Journal of Chemical Education is the official journal of the Division of Chemical Education of the American Chemical Society, co-published with the American Chemical Society Publications Division. Launched in 1924, the Journal of Chemical Education is the world’s premier chemical education journal. The Journal publishes peer-reviewed articles and related information as a resource to those in the field of chemical education and to those institutions that serve them. JCE typically addresses chemical content, activities, laboratory experiments, instructional methods, and pedagogies. The Journal serves as a means of communication among people across the world who are interested in the teaching and learning of chemistry. This includes instructors of chemistry from middle school through graduate school, professional staff who support these teaching activities, as well as some scientists in commerce, industry, and government.
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