New Perspectives in Science Education

Edition 13

Accepted Abstracts

Development of an Analysis Tool to Promote the Communication of Knowledge about Nanotechnology

Marie Eschweiler, University Bremen (Germany)

Doris Elster, University Bremen, Institute for Science Education, Biology Department (Germany)

Abstract

Nanotechnology is regarded as a key technology of the 21st century [Filser 2013] and brings nowadays a rapid development with it. Therefore nanotechnology represents a new perspective also for science education, which requires adequate communication of knowledge between teachers and pupils as well as between scientists and teachers. Therefore, the objective of this qualitative study is the development and empirically testing of an analysis tool to identify barriers within the communication between persons with different expertise.

The development of the analysis tool is based on the theoretical assumption that the personal view regarding new technologies is determined by the following four components: “key concepts and subject knowledge”, “perception of risk”, “beliefs and attitudes” and “understanding of nature of science” [France & Gilbert 2006]. According to the Common-Ground-Theory [Bromme 1992; Bromme & Jucks 2001] successful communication between persons of various communities (e.g. experts and lay persons, scientists and teachers, teachers and pupils) can only appear in the overlapping areas of understanding, the so-called areas of common ground.

Based on the theoretical frame an interview study was conducted with scientists in the field of nanotechnology (N = 3) and biology teachers (N = 3). The interviews were analyzed based on the paradigm of Meuser & Nagel [1991].

The findings demonstrate profound differences between scientists and biology teachers in respect to the component “key concepts and subject knowledge about nanotechnology”. One of the core teachers´ misconceptions is to make the small size a subject of discussion only. In contrast the scientists specify that due to the small size the surface of nanomaterials increases and therefore changed characteristics can occur. However, significant differences in the other three components cannot be identified between the group of scientists and the group of teachers, but differences between the individual persons. In respect to the component “perception of risk” scientists as well as teachers estimate both the risks and the chances as being high. Although there are concerns expressed in the component of “beliefs and attitudes”, all interviewed persons support the further development of nanotechnology. 

References

[1] Filser, J. (2013). NanoCompetence in der Gesellschaft: Forschung-Vermittlung-Gestaltung. [Nano-competence in the society: reserach – intervention –designing] URL: http://www.nano.uni-bremen.de/pdf/Antrag_NanoCompetence_rv_1-9.pdf [download November 21st, 2016] 
[2] France, B. & Gilbert, J. K. (2006). A model for communication about biotechnology. Rotterdam: Sense Publisher.  
[3] Bromme, R. (1992). Der Lehrer als Experte: Zur Psychologie des professionellen Wissens. [The teacher as an expert: About the psychology of professional knowledge]  Bern: Huber Verlag.
[4] Bromme, R., Jucks, R. (2001). Wissensdivergenz und Kommunikation: Lernen zwischen Experten und Laien im Netz.[ Knowledge divergences and communication: Learning between experts and la persons in the net].  In: Hesse, F. W. & Friedrich, H. F. (Ed.). Partizipation und Interaktion im virtuellen Seminar. Münster: Waxmann Verlag, 83-103.
[5] Meuser, M. & Nagel, U. (1991). ExpertInneninterviews - vielfach erprobt, wenig bedacht: ein Beitrag zur qualitativen Methodendiskussion.[Expert interviews – multiple used, seldom considered: a contribution for the qualitative methodical discussion].  In: Garz, D. & Kraimer, K. (Ed.). Qualitativ-empirische Sozialforschung : Konzepte, Methoden, Analysen. Opladen: Westdeutscher Verlag, 441-471. URL: http://nbn-resolving.de/urn:nbn:de:0168-ssoar-24025 [download November 21st, 2016]
[6] Meuser, M. & Nagel, U. (2009). The Expert Interview and Changes in Knowledge Production. In: Bogner, A., Littig, B. & Menz, W. (Ed.). Interviewing Experts. Houndmills: Palgrave Macmillan, 17-42. 
[7] Baalousha, M. & Lead, J. R. (2009). Overview of Nanoscience in the Environment. In: Lead, J. R. & Smith E. (Ed.). Environmental and Human Health Impacts of Nanotechnology. Wiley: Chichester, West Sussex. 
[8] Buzea, C., Pacheco Blandino, I. I. & Robbie, K. (2007). Nanomaterials and nanoparticles: Sources and toxicity. Biointerphases, 2(4), MR17-MR172.
[9] Häuser, S. (2012). Auf eigene Gefahr – Nano in Verbraucherprodukten. [On own risk – Nano in consumables] . In: Heckl, W. M. (Ed.). Nano im Körper. Chancen, Risiken und gesellschaftlicher Dialog zur Nanotechnologie in Medizin, Ernährung und Kosmetik. Stuttgart: Wissenschaftliche Verlagsgesellschaft Stuttgart.
[10] BfR (Bundesinstitut für Risikobewertung) (2008). Zimmer, R., Hertel, R. & Böl, G.F. (Ed.). Wahrnehmung der Nanotechnologie in der Bevölkerung – Repräsentativerhebung und morphologisch-psychologische Grundlagenstudie. [Perception of nanotechnology in the society] URL: www.bfr.bund.de/cm/350/wahrnehmung_der_nanotechnologie_in_der_bevoelkerung.pdf [download November 09th, 2015].
 

Back to the list

REGISTER NOW

Reserved area

Username:
Password:

Create new account

Forgot your password?


Media Partners:

Click BrownWalker Press logo for the International Academic and Industry Conference Event Calendar announcing scientific, academic and industry gatherings, online events, call for papers and journal articles
Pixel - Via Luigi Lanzi 12 - 50134 Firenze (FI) - VAT IT 05118710481
    Copyright © 2024 - All rights reserved

Privacy Policy

Webmaster: Pinzani.it