20 likes | 218 Views
Incorporating Nanoscale Science and Engineering Experiments and Demonstrations into First-Year Undergraduate Courses Eric J. Voss, Michael J. Shaw, Mark G. Bolyard, Paul E. Wanda, and Nader Saniei Southern Illinois University Edwardsville , DMR-0407096.
E N D
Incorporating Nanoscale Science and Engineering Experimentsand Demonstrations into First-Year Undergraduate CoursesEric J. Voss, Michael J. Shaw, Mark G. Bolyard, Paul E. Wanda, and Nader SanieiSouthern Illinois University Edwardsville, DMR-0407096 An interdisciplinary team of chemists, biologists, and engineers has incorporated nanoscale science and engineering experiments and demonstrations into introductory courses at Southern Illinois University Edwardsville. The first-year courses form the foundation of the science curriculum, and approximately 1000 science and engineering students each year are introduced to nanoscale topics as a result of this project. The honors seminar, Nanotechnology, is offered every Fall semester. In this course, 20 first-year honors students learn about nanoscale science through readings, discussion, writing assignments, and student presentations. Nanotechnology has great promise but raises societal, ethical, and cultural questions. One class period per week is spent in the laboratory doing hands-on nanoscale science activities and experiments. Nanoscale science and engineering experiments and demonstrations have been integrated into General Chemistry, and Engineering Chemistry lectures and laboratories. The Engineering Chemistry sequence has the most nanoscale content, with 8 of the 16 laboratory experiments related to nanoscale science and engineering applications. Implemented experiments include Synthesis of Aqueous Ferrofluid, Synthesis of a Nanocrystalline Phosphor, Disassembly of a Liquid Crystal Watch, Solid State Structure and Properties, Periodic Properties and LEDs, A Shape Memory Alloy NiTi, A Nanocrystalline Solar Cell, and Synthesis of Nickel Nanowires. Nanocrystalline particles of the red-emitting phosphor Y2O3:Eu are prepared from an aqueous solution of the metal nitrates and urea in a combustion reaction. First-year general chemistry students collect the powder X-ray diffraction pattern for their nanocrystalline phosphor.
Incorporating Nanoscale Science and Engineering Experimentsand Demonstrations into First-Year Undergraduate CoursesEric J. Voss, Michael J. Shaw, Mark G. Bolyard, Paul E. Wanda, and Nader SanieiSouthern Illinois University Edwardsville, DMR-0407096 High school chemistry teachers learn to make aqueous ferrofluid at a professional development workshop. A suspension of nanoparticles formed by mixing Fe(II), Fe(III), and a surfactant result in magnetic ferrofluid. First-year general chemistry students proudly display the aqueous ferrofluid they made in the laboratory. The project also involves an annual one-day Teachers Exploring the Nanoworld (TEN) professional development workshop for high school science educators from Southwestern Illinois and the Metro East St. Louis Region. Teachers attending the workshop will be able to incorporate examples from nanoscience into their curricula, resulting in “nano-aware” students feeding into colleges and universities. A group of high school science teachers assembled at SIUE on Mole Day, October 23, 2004, for a professional development workshop. After an “Exploring the Nanoworld” lecture featuring hands-on demonstrations, educators performed four nanoscale laboratory experiments and discussed how they plan to implement nanoscale science into their curricula. A second Exploring the Nanoworld workshop was provided for high school teachers at the St. Clair County Teachers’ Institute on April 1, 2005. In addition to the local and regional impact, educational materials resulting from these efforts are broadly disseminated through the web-based Nanoscale Video Lab Manual and Nanoworld Cineplex of Movies, http://mrsec.wisc.edu/nano.