Published research on pre-college students’ and teachers’ nanoscale science, engineering, and technology learning

Nano education involves tackling the inescapable task of conceptualizing imperceptibly small objects and processes. Interactive visualization serves as one potential solution for providing access to the nanoworld through active exploration of nanoscale concepts and principles. This chapter exposes and describes a selection of interactive visualizations in the literature, and reviews research findings related to their educational, perceptual and cognitive influence. In closing, we offer implications of interactive visualization for learning and teaching nano.

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“…Finkelstein et al [2005]) in order to move the nano education agenda forward (e.g. Bryan et al [2015]). …”

Section: Future Research On Interactive Visualization In Nano Educmentioning

confidence: 99%

Interactive Visualization for Learning and Teaching Nanoscience and Nanotechnology

Schönborn

Höst

Palmerius

2016

Science Policy Reports

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“…To properly prepare the next generation of scientists, engineers, and future NSTengaged citizens, effective educational programs in NST are needed and some efforts have been made (Bryan, Magana, & Sederberg, 2015;Jones et al, 2013). Most of these programs have focused on different developmental levels and aspects for teaching NST (Ambrogi, Caselli, Montaltic, & Venturic, 2008;Blonder, 2011;Blonder & Dinur, 2011;Blonder & Sakhnini, 2012Bryan et al, 2015;Dori, Dangur, Avargil, & Peskin, 2014;Jones et al, 2013;Jones, Gardner, Falvo, & Tayler, 2015;Samet, 2009;Walters & Bullen, 2008) Although NST is considered a motivating interdisciplinary scientific field, it cannot be easily dropped or integrated into an existing broad and condensed curriculum.…”

Section: Introductionmentioning

confidence: 99%

“…Most of these programs have focused on different developmental levels and aspects for teaching NST (Ambrogi, Caselli, Montaltic, & Venturic, 2008;Blonder, 2011;Blonder & Dinur, 2011;Blonder & Sakhnini, 2012Bryan et al, 2015;Dori, Dangur, Avargil, & Peskin, 2014;Jones et al, 2013;Jones, Gardner, Falvo, & Tayler, 2015;Samet, 2009;Walters & Bullen, 2008) Although NST is considered a motivating interdisciplinary scientific field, it cannot be easily dropped or integrated into an existing broad and condensed curriculum. In addition, the interdisciplinary nature of NST makes it difficult to determine (1) where and how NST should be integrated into the current curriculum in which scientific disciplines (e.g.…”

Section: Introductionmentioning

confidence: 99%

Essential Concepts of Nanoscale Science and Technology for High School Students Based on a Delphi Study by the Expert Community

Sakhnini

Blonder

2015

International Journal of Science Education

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Nanoscale science and technology (NST) is an important new field in modern science. In the current study, we seek to answer the question: 'What are the essential concepts of NST that should be taught in high school'? A 3-round Delphi study methodology was applied based on 2 communities of experts in nanotechnology research and science education. Eight essential concepts in NST were identified. Each concept is accompanied by its explanation, definition, importance and includes subcategories that compose it. Three concepts emerged in the Delphi study, which were not identified before: functionality, classification of nanomaterials, and the making of nanotechnology. Differences between the concepts suggested by the 2 communities of experts were found. The results of this study serve as a tool to examine different nanotechnology programs that were reported thus far and to make recommendations for designing a NST program for high school students that includes the essential concepts.

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“…Many educational nanotechnology programs have been developed for both formal and informal education settings around the world some of them were accompanied by educational research [4]. For example, an Australian secondary school program was developed [5] to create a passion for science.…”

Section: Introductionmentioning

confidence: 99%

“…The participants in the Delphi study, in which the concept "the making of nanotechnology" was raised, explained the meaning and importance of the concept [31]. 4 For example, the participants wrote: -"It is important to stress to the students that doing research in nanotechnology requires knowledge in a wide range of fields, from physics and chemistry to biology. No shortcuts!"…”

Section: Introductionmentioning

confidence: 99%

The making of nanotechnology: exposing high-school students to behind-the-scenes of nanotechnology by inviting them to a nanotechnology conference

Blonder

Sakhnini

2015

Nanotechnology Reviews

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Nanotechnology has been recognized in the 21st century as a new and modern science field. It is therefore necessary to update school science by integrating nanotechnology-related concepts into curricula for students in order to prepare an educated workforce and a responsible generation that will make scientifically literate decisions. The current study examines a unique way to address the teaching of the concept "the making of nanotechnology," one of eight essential concepts of nanotechnology that should be taught in high school and at the undergraduate level, which were identified by a recent study. The concepts' definition and explanation are presented. The main goal of the study is to learn how students' participation in a one-day nanotechnology conference "NanoIsrael 2014" 1 influences their perceptions regarding the concept "the making of nanotechnology". We compared students who had previous knowledge of nanotechnology and those who lacked it. The results of the study showed that the students' participation in the conference influenced their emotional perspectives, their knowledge concerning nanotechnology, as well as their curiosity and interest in science. The conference also influenced the students' motivation and future plans. Differences between the two groups were found mainly regarding their understanding of the basic concepts of nanotechnology.

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Published research on pre-college students’ and teachers’ nanoscale science, engineering, and technology learning

Cited by 18 publications

References 34 publications

Interactive Visualization for Learning and Teaching Nanoscience and Nanotechnology

Interactive Visualization for Learning and Teaching Nanoscience and Nanotechnology

Essential Concepts of Nanoscale Science and Technology for High School Students Based on a Delphi Study by the Expert Community

The making of nanotechnology: exposing high-school students to behind-the-scenes of nanotechnology by inviting them to a nanotechnology conference

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