Abstract
Recognizing materials development was advancing slower than technological needs, the 2011 the Materials Genome Initiative (MGI) advocated interdisciplinary approaches employing an informatics framework in materials discovery and development. In response, an interdisciplinary graduate program, funded by the National Science Foundation, was designed at the intersection of materials science, materials informatics, and engineering design, aiming to equip the next generation of scientists and engineers with Material Data Science. Based on the 4- year implementation experience, this report demonstrates how intellectual communities bridge students interdisciplinary learning processes and support a transition from disciplinary grounding to interdisciplinary learning and research. We hope this training model can benefit other interdisciplinary graduate programs, and produce a more productive and interdisciplinary materials workforce.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.References
J. A. Warren and C. H. Ward, Evolution of a materials data infrastructure. Journal of the Minerals, Metals & Materials Society 70(9), 1652–1658 (2018).
C. N. Chang, B. Semma, D. Fowler, and R. R. Arroyave, in 2017 American Society for Engineering Education (ASEE) Annual Conference & Exposition, (American Society for Engineering Education, Washington DC, 2017), pp. 1–14.
C. N. Chang, M. Pardo, B. Semma, D. Fowler, R. Arroyave, and P. J. Shamberger. MRS Advances, 2(31-32), 1693–1698 (2017).
M. Borrego and L. K. Newswander, The Review of Higher Education 34, 61 (2010).
V. B. Mansilla, E. D. Duraisingh, C. R. Wolfe, and C. Haynes, The Journal of Higher Education 80, 334 (2009).
V.B. Mansilla and E.D. Duraisingh, The Journal of Higher Education 78, 215 (2007).
L.R. Lattuca, D. Knight, and I. Bergom. International Journal of Engineering Education 29, 3 (2013).
A.F. Repko, Interdisciplinary Research: Process and Theory, 2nd ed. (Sage, New York, 2011).
C. A. Patterson, C. N. Chang, M. Pardo, C. Lavadia, D. Fowler, and K. L. Butler, Studies in Graduate and Postdoctoral Education (2019) (in press).
P.V. August, J.M. Swift, D.Q. Kellogg, G. Page, P. Nelson, J. Opaluch, J.S. Cobb, C. Foster, and A.J. Gold, Journal of Natural Resources and Life Sciences Education 39(1), 15–21 (2010).
C.M. Golde, Educational Researcher, 36(6), 344–351 (2007).
J.C. Weidman, D.J. Twale, and E.L. Stein, ASHE-ERIC Higher Education Report 28(3) (2001).
D. Boden, M. Borrego, and L.K. Newswander, High Educ 62, 741–755 (2011).
C.N. Chang, C. A. Patterson, C. Lavadia, D. Fowler, and R. Arroyave, in 2019 American Society for Engineering Education (ASEE) Annual Conference & Exposition, (American Society for Engineering Education, Washington DC, 2019), pp. 1–19.
C.N. Chang, C. Lavadia, D. Fowler, D. Allaire, and R. Arroyave, in 2018 American Society for Engineering Education (ASEE) Annual Conference & Exposition, (American Society for Engineering Education, Washington DC, 2018), pp. 1–13.
R. Arroyave, S. Shields, C.N. Chang, D. Fowler, R. Malak, and D. Allaire, Journal of Mechanical Design, 140 (11), 110801–1–11080–9 (2018).
C. Lavadia, C.N. Chang, and D. Fowler, in 2018 IEEE Frontiers in Education Conference (FIE), (IEEE, New York, 2018), pp. 1–7 (2018).
S. McKenna, Innovations in Education and Teaching International 54(5), 458–466 (2017).
College of Education and Human Development: POWER Writing Support Services (2012). Available at: https://power.tamu.edu/ (accessed 17 December 2019)
M.J. Pifer and V.L. Baker, International Journal of Doctoral Studies 11, 15–34 (2016)
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Chang, CN., Patterson, C.A., Harmon, W.C. et al. Intellectual Community as a Bridge of Interdisciplinary Graduate Education in Materials Data Science. MRS Advances 5, 355–362 (2020). https://doi.org/10.1557/adv.2020.140
Published:
Issue Date:
DOI: https://doi.org/10.1557/adv.2020.140