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1. An optogenetics device with smartphone video capture to introduce neurotechnology and systems neuroscience to high school students

   https://doi.org/10.1371/journal.pone.0267834  

   Luo, Liudi; Hina, Bryce W.; McFarland, Brennan W.; Saunders, Jillian C.; Smolin, Natalie; von Reyn, Catherine R. (May 2022, PLOS ONE)

   Louis, Matthieu (Ed.)

   Although neurotechnology careers are on the rise, and neuroscience curriculums have significantly grown at the undergraduate and graduate levels, increasing neuroscience and neurotechnology exposure in high school curricula has been an ongoing challenge. This is due, in part, to difficulties in converting cutting-edge neuroscience research into hands-on activities that are accessible for high school students and affordable for high school educators. Here, we describe and characterize a low-cost, easy-to-construct device to enable students to record rapid Drosophila melanogaster (fruit fly) behaviors during optogenetics experiments. The device is generated from inexpensive Arduino kits and utilizes a smartphone for video capture, making it easy to adopt in a standard biology laboratory. We validate this device is capable of replicating optogenetics experiments performed with more sophisticated setups at leading universities and institutes. We incorporate the device into a high school neuroengineering summer workshop. We find student participation in the workshop significantly enhances their understanding of key neuroscience and neurotechnology concepts, demonstrating how this device can be utilized in high school settings and undergraduate research laboratories seeking low-cost alternatives. 

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2. Faculty and Undergraduate Students’ Challenges When Connecting Advanced Undergraduate Mathematics to School Mathematics

   Álvarez, James A.; Burroughs, Elizabeth (January 2019, Proceedings of the 22nd Annual Conference on Research in Undergraduate Mathematics Education)

   When implementing lessons connecting advanced undergraduate mathematics to school mathematics, challenges arise for faculty and for the undergraduate students. The Mathematical Education of Teachers as an Application of Undergraduate Mathematics (META Math) project has created, piloted, and field-tested lessons for undergraduate mathematics and statistics courses typically part of a mathematics major that leads to secondary mathematics teacher certification. Lessons in calculus, discrete mathematics, algebra, and statistics explicitly link topics in college mathematics with high school mathematics topics prospective teachers will eventually teach. The goal of this poster presentation is to discuss our preliminary observations of the challenges faced by faculty and undergraduate students when implementing or using these lessons. We also wish to gather feedback and suggestions on the study design and potential directions for further research. 

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3. ReflectSim: an open-source software for teaching optical light reflection of nanostructured materials

   https://doi.org/10.1088/1361-6404/ac56b2  

   Keene, Clayton; Robertson, Mark; Sarkar, Gautam; King, Jessica; Qiang, Zhe (March 2022, European Journal of Physics)

   Abstract Leveraging computational resources for modern physics education has become increasingly prevalent, especially catalyzed by the COVID-19 pandemic when distance learning is widely implemented. Herein, we report an open-source software for students and instructors to on-demand simulate optical reflection behaviors of one-dimensional photonic crystals (1D-PCs), a model system for understanding light–matter interactions relevant to materials science and optical physics. Specifically, our MATLAB application, ReflectSim, employs an adapted transfer matrix method simulation and can account for the effects of several critical material design parameters, including interfacial roughness and layer geometry, to determine the reflectance spectrum of user-defined 1D-PCs. By packing our codes into a graphical user interface, this software is simple to use and bypass the requirement of any coding experiences from users, which can be widely used as an education tool in high school/undergraduate classrooms and K-12 outreach activities. We believe that ReflectSim provides great potential for assisting students in understanding optical phenomenon in nanostructured layered materials and relevant scientific concepts through enabling more engaging learning experiences. 

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4. A Twist to the Kirby-Bauer Disk Diffusion Susceptibility Test: an Accessible Laboratory Experiment Comparing Haloferax volcanii and Escherichia coli Antibiotic Susceptibility to Highlight the Unique Cell Biology of Archaea

   https://doi.org/10.1128/jmbe.00234-21  

   Schiller, Heather; Young, Criston; Schulze, Stefan; Tripepi, Manuela; Pohlschroder, Mechthild (April 2022, Journal of Microbiology & Biology Education)

   ABSTRACT Archaea, once thought to only live in extreme environments, are present in many ecosystems, including the human microbiome, and they play important roles ranging from nutrient cycling to bioremediation. Yet this domain is often overlooked in microbiology classes and rarely included in laboratory exercises. Excluding archaea from high school and undergraduate curricula prevents students from learning the uniqueness and importance of this domain. Here, we have modified a familiar and popular microbiology experiment—the Kirby-Bauer disk diffusion antibiotic susceptibility test—to include, together with the model bacterium Escherichia coli , the model archaeon Haloferax volcanii . Students will learn the differences and similarities between archaea and bacteria by using antibiotics that target, for example, the bacterial peptidoglycan cell wall or the ribosome. Furthermore, the experiment provides a platform to reiterate basic cellular biology concepts that students may have previously discussed. We have developed two versions of this experiment, one designed for an undergraduate laboratory curriculum and the second, limited to H. volcanii , that high school students can perform in their classrooms. This nonpathogenic halophile can be cultured aerobically at ambient temperature in high-salt media, preventing contamination, making the experiment low-cost and safe for use in the high school setting. 

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5. LBIC Imaging of Solar Cells: An Introduction to Scanning Probe-Based Imaging Techniques

   https://doi.org/10.1021/acs.jchemed.2c00623  

   Marquez, Steven; Varra, Travis; Christensen, Cami; Rajasekharan, Om; Dojan, Carter; Hobbs, Janelle; Otten, Abigail; Salzer, Luke; Schuttlefield Christus, Jennifer D.; Sambur, Justin B. (January 2023, Journal of Chemical Education)

   Scanning probe-based microscopes (SPMs) are widely used in biology, chemistry, materials science, and physics to image and manipulate matter on the nanoscale. Unfortunately, high school and university departments lack expensive SPM tools and materials microscopy activities to educate a large number of students in this vital SPM imaging technique. As a result, students face challenges participating in and contributing value to the nanotechnology revolution driving modern scientific innovations. Here we demonstrate an affordable scanning laser-based imaging system (approximately $400, excluding the computer) to introduce students to the point-by-point image formation process underlying SPM methods. In this laboratory activity, students learn how to construct and optimize images of a working solar panel using a laser beam-induced current (LBIC) imaging system. We envision undergraduate and graduate students should be able to use this LBIC system for independent solar energy research projects as well as apply fundamental knowledge and measurement skills to understand other SPM techniques. 

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