Profiles

Shu-Nu Chang Rundgren photo was taken in September 2017

Shu-Nu Chang Rundgren

Professor

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Works at Department of Education
Telephone 08-120 763 88
Email shu-nu.chang-rundgren@edu.su.se
Visiting address Frescativägen 54
Room 1713
Postal address Institutionen för pedagogik och didaktik 106 91 Stockholm

About me

Scientific leader and coordinator for the research group of Competences for Modern Citizenship (CMC)

Professor in Didactics in Department of Education at Stockholm University (2015 to date)

Guest Professor in Department of Primary and Secondary Teacher Education at Oslo Metropolitan University (OsloMet) in Norway (2018 September to date)

Honorary Chair Professor in Department of Education and Learning Technology at National Tsing-Hua University in Taiwan, R.O.C. (2017 July 01 to 2018 December 31)

Professor in Science Education in in Department of Engineering and Chemical Sciences at Karlstad University (2011 to 2015)

Guest Professor in the Research School of Science and Technology Education at Linköping University (2008)

 

During the past 20 years since my PhD project, my research focus has been teaching and learning of socioscientific issues (SSI) and informal argumentation concerning issues of, for example, genetically modified food (GMO) and climate change issues. SSI are emerging issues that involve multi-disciplines of science/technology (S), environment (E), economy(E), social culture (S), ethics (E) and policy (P), and a model termed SEE-SEP has been developed in year 2010 by myself and my co-author to contribute to SSI teaching and learning and the assessment of SSI/informal argumentation. The article is Chang Rundgren, S. N. & Rundgren, C.-J. (2010). SEE-SEP: From a separate to a holistic view of socioscientific issues. Asia-Pacific Forum on Science Learning and Teaching, 11(1), Article 2.

 

To date, my research interests are around competences for modern citizenship (CMC), in which competence is defined as individuals who have knowledge, skill and attitude, and can further ‘reflect and act’ in various situations. The research focus of the CMC research for me includes the aspects of teaching practices (teachers' competences on developing students' CMC and the related teaching and assessment methods) and learning environments (students' CMC development through different teaching design, assessment strategies and formal/informal/non-formal learning contexts). To be more specific, there are four main areas of CMC developed in my research and they are

(1) Critical thinking: teaching and learning about socioscientific issues (ex. climate change and vaccination issues) and argumentation skills

(2) Critical scientific media literacy: how science related information in mass media could be used in teaching and learning contexts in order to promote individuals’ critical scientific media literacy

(3) Competence on living safely and healthily: problematizing the lack of knowledge, attitude or skills in presuming safe and healthy life

(4) Digital competence: how digital resources could be used in enhancing teaching and learning in formal and informal settings.

(5) Inclusive education: how inclusive education has been done and could be improved at different school levels including pre-schools.

 

CMC is seen as the educational outcomes of my research and the journey can involve multi-resources of theoretical ideas (including both social and cognitive perspectives), design-based research and mixed methods approaches together with stakeholders from multi-disciplinary subject areas at all school levels in formal and informal learning settings as well as the public. 

 

My detailed research publication list (including conference presentations, book chapters and so on), teaching and research experiences can be found in my CV.

 

Papers published in the refereed journals or book chapters

*Corresponding author                

2019

50. Kim, S.-K.*, & Chang Rundgren, S. N. (accepted). South Korean elementary school teachers’ experiences of inclusive education concerning students with a multicultural background. International Journal of Inclusive Education.

49. Chang Rundgren, S. N.*, Sun, Y.-L. & Jidesjö, A. (2019). Examining gender differences in students’ entrance into and persistence in STEM programs in Swedish higher education. European Journal of Educational Sciences, Vol. 6 (1).

 

2018

48. Rundgren, C.-J., & Chang Rundgren, S. N.* (2018). Aiming for responsible and competent citizenship through teacher professional development on teaching socioscientific inquiry-based learning (SSIBL). Asia-Pacific Forum on Science Learning and Teaching, 19 (2), Article 2. http://www.eduhk.hk/apfslt/v19_issue2/changsn/

47. Chang Rundgren, S. N.*, & Sun., Y.-L. (2018). A Systematic Review on Age 11-16 Ethnic Minority Students’ Attitudes Toward Science and Aspirations for Science Careers. European Journal of Educational Sciences, Vol. 5 (4). doi: 10.19044/ejes.v5no4a1

46. Spiteri, M.* & Chang Rundgren, S. N. (2018). Literature Review on the Factors Affecting Primary Teachers’ Use of Digital Technology. Technology, Knowledge and Learning. doi:10.1007/s10758-018-9376-x

45. Spiteri, M.* & Chang Rundgren, S. N. (2018). Teachers’ digital competence from a global perspective. In M. Attard & J. Madalinska-Michalak (eds.) Teacher Education Policy and Practice - International Perspectives and Inspirations, pp. 216-234. Key Concept Series. Foundation for the Development of the Education System, Polish National Agency for the Erasmus+ Programme. Warsaw.

 

2017

44. Christenson, N.,* Gericke, N., & Chang Rundgren, S. N. (2017). Science and Language Teachers’ Assessment of Upper Secondary Students’ Socio-scientific Argumentation. International Journal of Science and Mathematics Education, 15, 1403-1422. doi: 10.1007/s10763-016-9746-6

43. Spiteri, M.* Chang Rundgren, S. N. (2017). Maltese primary teachers’ digital competence: Implications for continuing professional development. European Journal of Teacher Education, 40(4), 521-534. doi: 10.1080/02619768.2017.1342242

42. Bergqvist, A. & Chang Rundgren, S. N.* (2017). The influence of textbooks on teachers’ knowledge of chemical bonding representations relative to students’ difficulties understanding. Research in Science and Technological Education, 35(2), 215-237.

 

41. Rundgren, C.-J.*, Ericsson, M., & Chang Rundgren, S. N. (2017). Investigating the intertwinement of knowledge, value and experiences of upper secondary students' argumentation concerning socioscientific issues. Science & Education, 25(9), 1049-1071. doi: 10.1007/s11191-016-9859-x

 

40. Chang Rundgren, S. N.* & Rundgren, C.-J. (2017). What are we aiming for? – A Delphi study on the development of civic scientific literacy in Sweden. Scandinavian Journal of Educational Research61 (2), 224-239. doi: 10.1080/00313831.2015.1120231

 

2016

39. Lunde, T.*, Drechsler, M., & Chang Rundgren, S. N. (2016). Exploring the negotiation of the meaning of laboratory work in a continuous professional development program for lower secondary teachers. The Electronic Journal of Science Education, 20(8), 28-48.

 

38. Bergqvist, A.*, Drechsler, M., & Chang Rundgren, S. N. (2016). Upper Secondary Teachers’ Knowledge for Teaching Chemical Bonding Models. International Journal of Science Education. 38(2), 298-318. doi:10.1080/09500693.2015.1125034

 

37. Olsson, D.*, Gericke N., & Chang-Rundgren, S. N. (2016). The effect of implementation of education for sustainable development in Swedish compulsory schools – assessing pupils’ sustainability consciousness. Environmental Education Research, 22(2), 176-202. doi:10.1080/13504622.2015.1005057

 

2015

36. Chang Rundgren, S. N.* & Rundgren, C.-J. (2015). Chapter 11. Making chemistry education relevant through mass media. In I. Eilks & A. Hofstein (eds.) Relevant Chemistry Education – From Theory to Practice, pp. 195-210. Rotterdam: Sense Publishers.

35. Belova, N., Chang Rundgren, S. N., & Eilks, I.* (2015). Advertising and Science Education: A Multi-perspective Review of the Literature. Studies in Science Education, 51(2), 169-200. doi: 10.1080/03057267.2015.1049444

34. Chang Rundgren, S. N. (2015). ‘Is the moon more round in the Western world?’ - Some important aspects of comparative education. Culture Studies of Science Education, 10(3), 707-718. DOI 10.1007/s11422-014-9635-7 

33. Chang Rundgren, S. N. *, Nyberg, L., Evers, M., & Alexandersson, J. (2015). Learning about flood risk: comparing the Web-based and physical flood-walk learning environment. Asia-Pacific Forum on Science Learning and Teaching, 16 (1), Article 12.

32. Christenson, N.* & Chang Rundgren, S. N. (2015). A framework for teachers’ Assessment of socio-scientific argumentation: an example using the GMO issue. Journal of Biological Education, 49 (2), 204-212. doi: 10.1080/00219266.2014.923486

31. Walan, S & Chang Rundgren, S. N.* (2015). Student responses to context- and inquiry-based three-step teaching model. Teaching Science, 61 (2), 33-39.

30. Lunde, T.*, Rundgren, C-J, & Chang Rundgren, S. N. (2015). När läroplan och tradition möts – hur högstadielärare bemöter yttre förväntningar på undersökande arbete i naturämnesundervisningen. [When curricula and tradition meet – how lower secondary teachers encounter external expectations on inquiry-based science teaching]. NorDiNa (Nordic Studies in Science Education), 11(1), 88-101.

 

2014

29. Rundgren, C.-J , Persson, T. & Chang Rundgren, S. N.* (2014). Comparing Different Stakeholders’ View on Science Education with the Science Curriculum in Sweden: Reflecting on the PROFILES 3- step Module. In C. Bolte, J. Holbrook, R. Mamlok-Naaman, F. Rauch (Eds.) Science Teachers‘ Continuous Professional Development in Europe. Case Studies from the PROFILES Project, pp. 38-47. Alpen-Adria-Universität, Klagenfurt, Austria. ISBN: 978-3-9816683-0-8

 

28. Chang Rundgren, S. N.* & Yao, B.-J. (2014). Visualization in research and science teachers’ professional development. Asia-Pacific Forum on Science Learning and Teaching, 15 (2), Article 2.

27. Berglund, T.*, Gericke, N., & Chang Rundgren, S. N. (2014). The Implementation of Education for Sustainable Development in Sweden: Investigating the Sustainability Consciousness among Upper Secondary Students. Research in Science & Technological Education, 32(3), 318-339. DOI: 10.1080/02635143.2014.944493

26. Christenson, N.*, Chang Rundgren, S. N. & Zeidler, D. (2014). The Relationship of Discipline Background to Upper Secondary Students' Argumentation on Socioscientific Issues. Research in Science Education, 44(4), 581-601.

25. Walan, S. & Chang Rundgren, S. N.(2014). Investigating preschool and primary school teachers’ self-efficacy and needs in teaching science: a pilot study. Center for Educational Policy Studies (CEPS) Journal4(1), 51-67.

 

2013

24. Bergqvist, A.*, Drechsler, M., de Jong, O. & Chang Rundgren, S. N. (2013). Representations of chemical bonding models in school textbooks - help or hindrance for understanding? Chemistry Education Research and Practice, 14, 589-606.

 

23. Yao, B.-J.* & Chang Rundgren, S. N. (2013). The comparison of critical features identified between the still image and animation concerning the concept of transport through the cell membrane. Bulletin of Biology, 48(7), 6-10. (In Mandarin)

2012

22. Rundgren, C.-J.*, Hirsch, R, Chang Rundgren, S. N. & Tibell, L. A. E. (2012). Students' Communicative Resources in Relation to their Conceptual Understanding – the role of non-conventionalized expressions in making sense of visualizations of protein function. Research in Science Education, 42(5), 891-913.

21. Rundgren, C-J, Chang Rundgren, S. N., Tseng, Y-H., Lin, P-L. & Chang, C-Y* (2012). Are You SLiM? –The Development of an Instrument for Civic Scientific Literacy Measurement (SLiM) Based on Media Coverage. Public Understanding of Science, 21(6), 759-773.

20. Christenson, N., Chang Rundgren, S. N.* & Höglund, H.-O. (2012). Analysing upper secondary students’ use of supporting reasons in arguing socioscientific issues through the SEE-SEP model. Journal of Science Education and Technology, 21, 342-352.

2011

19. Chang Rundgren, S. N. (2011). Post it! - A cross-disciplinary approach to teach socioscientific issues. Teaching Science, 5(3), 25-28.

18. Chang Rundgren, S. N. (2011). How does background affect attitudes to socioscientific issues in Taiwan? Public Understanding of Science, 20(6), 722-732. (NSC 94-2511-S-156-001-)

2010

17. Rundgren, C. J., Chang Rundgren, S. N.* & Schönborn, K. J. (2010). Students’ conceptions of water transport. Journal of Biological Education, 44(3), 129-135.

16. Chang Rundgren, S. N.* & Rundgren, C.-J. (2010). SEE-SEP: From a separate to a holistic view of socioscientific issues. Asia-Pacific Forum on Science Learning and Teaching, 11(1), Article 2.

15. Tseng, Y. H.*, Chang, C. Y., Chang Rundgren, S. N. & Rundgren, C.-J. (2010). Mining concept maps from news stories for measuring civic scientific literacy in media. Computers & Education, 55, 165–177.

 

2000-2009

14. Chang, S. N.*, Yeung, Y. Y. & Cheng, M. H. (2009). Ninth graders’ learning interests, life experiences and attitudes towards science & technology. Journal of Science Education and Technology, 18(5), 447-457.

13. Chang, S. N. (2008). The learning effect of modelling ability instruction. Asia-Pacific Forum on Science Learning and Teaching, 9(2), Article 3(NSC 95-2511-S-156-001-MY2)

12. Chang, S. N.* & Chiu, M. H. (2008). Lakatos' scientific research programmes as a framework for analysing informal argumentation about socioscientific issues. International Journal of Science Education, 30(13), 1753-1773. doi: 10.1080/09500690701534582

11. Chang, S. N. (2008). Using authentic assessment to investigate modeling ability. Science Education Monthly. 308, 2-6. (In Mandarin) (NSC 95-2511-S-156-001-MY2)

10. Chang, S. N. (2008). Investigating 9th graders’ scientific literacy via authentic assessment. Asia-Pacific Forum on Science Learning and Teaching, 9(1), Article 15. (In Mandarin)

9. Chang, S. N. (2007). Implementing “Science Across the World” in a Resource-Based Learning Activity regarding Sustainable Development Issues. Science Education International, 18(4), 245-254.

8. Chang, S. N. (2007). Externalizing students' mental models through concept maps. Journal of Biological Education, 41 (3), 107-112.

7. Chang, S. N. (2007). Teaching argumentation through the visual models in a resource-based learning environment. Asia-Pacific Forum on Science Learning and Teaching, 8(1), Article 5.

6. Sie, Y.-L., Wang, T.-H., Chang, H.-P., Chang, S. N., Shih, T. K.* (2006). A SCORM-based caching strategy for supporting ubiquitous learning environment. Lecture Notes in Computer Science (LNCS)4158551-560.

5. Chang, S. N. (2005). The investigation of the current Taiwanese senior high school students’ attitudes towards the vocation for science. Taiwan Education Review, 636, 33-37. (In Mandarin)

4. Chang, S. N. & Chiu, M. H.* (2005). The development of authentic assessments to investigate ninth graders' scientific literacy: in the case of scientific cognition concerning the concepts of chemistry and physics. International Journal of Science and Mathematics Education, 3(1), 117-140.

3. Chang, S. N. (2004). To reflect educational learning via researches in cognitive science: In the case of reasoning. Research and Development in Science Education Quarterly, 34: 29-40. (In Mandarin)

2. Chang, S. N. (2003). Investigate creative problem solving from the cases of patents. Business Education Quarterly, 90: 48-52. (In Mandarin)

1. Chang, S. N., Lin C. H., and Lin A.* (2000). An acidic amino acid cluster regulates the nucleolar localization and ribosome assembly of human ribosomal protein L22. FEBS Letters, 484(1): 22-28.

 

Last updated: April 16, 2019

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