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1. Computational analysis and design of high-entropy nanoparticles: Integrating atomistic simulations with scientific pedagogy in materials research

   https://doi.org/10.1557/s43580-025-01261-4  

   Luhar, Priyanshu; Ramirez, Ricardo; Hwang, Jiwon_Lexi; Hong, Sungwook_Leo (April 2025, MRS Advances)

   Abstract This study leverages reactive molecular dynamics simulations to enhance undergraduate education and research in materials science. Focusing on the oxidation processes of a variety of energetic metal nanoparticles, including Al, Cu, Mg, and Ti, two undergraduate students led the scientific inquiry. They conducted literature reviews, ran simulations, validated assumptions, and analyzed results, deepening their understanding of material behaviors and strengthening their STEM identity. Through these hands-on experiences, the students successfully investigated the energetic properties of these nanoparticles, demonstrating the effectiveness of this approach in promoting inquiry-based learning. This work underscores the transformative potential of computational simulations in advancing computational materials research, fostering diversity, and preparing undergraduates for future contributions to computational modeling-driven science. Graphical abstract 

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2. Exploring Constructive Learning Environments for Secondary Girls' STEM Learning

   Zhang, S (September 2024, WERA 2024)

   The purpose of the study is to explore and theorize the constructivist learning environment for secondary female students’ STEM learning. The study was built on a funded program featured a tiered-team structure, hands-on experience, and interactive mentorship for engaging female students from Grades 6-11 in a five-week Summer Camp to learn Arduino programming & Robotics Design and integration of these tools to conduct projects in ubiquitous intelligent systems. In conducting this study, we used the case study method to provide a more multifaceted perspective on the camp, and how these perspectives inform an understanding of how the project’s features impacted the students. All 37 female students participated in the survey, and eight participated in the interviews. The findings indicate that students were able to heighten their self-confidence and motivation. The themes of the learning environment were identified: knowledge enhancement, STEAM experience, as well as support and encouragement. The program had significant impacts on students’ identity related to STEM identity, motivation and interest, and self-confidence. It also significantly impacts their sense of belonging, including peers' and mentors' sense of belonging. The study provided research evidence for designing STEM learning projects to enhance female STEM learning. 

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3. Impacts of a geoscience research experience for undergraduates program on broadening participation in scientific research and increasing retention in STEM

   Rice, A; Loikith, P; Yuan, A; Murry, A (December 2022, American Geophysical Union)

   Recent reviews of science, technology, engineering, and mathematics (STEM) education conclude that engagement of undergraduate students in research generally broadens future participation in research and increased retention in STEM. Towards the goal of investing in a sustained and diverse atmospheric science research community, the Center for Climate and Aerosol Research (CCAR) at Portland State University (PSU) introduced a Research Experience for Undergraduates (REU) program in 2014 with the objective of providing atmospheric science summer research experiences to promising students in STEM disciplines from rural Northwest and Native American communities who would be unlikely to be otherwise exposed to such opportunities at their home institution. The PSU CCAR REU site is focused on student research in areas of atmospheric chemistry, physics, air quality, meteorology and climate change. For 10 weeks, students conduct research with an expert faculty mentor and participate in activities such as a short courses, faculty research seminars, and hands-on group workshops; academic professional and career development workshops; journal club activities; and opportunities for travel for student presentations at scientific conferences; and social activities. The program ends with a paper based on their summer research, which is presented via poster and oral presentations during our concluding CCAR symposium. Evaluation data from seven cohorts (2014-2021) of the CCAR REU (N = 70) was used to explore how science identity had changed over the course of the program, as well as what predicted positive increases in science identity. Change was assessed using paired-sample t-tests. To explore the predictors of change, we ran an exploratory stepwise regression where the difference score in science identity items from pre- to post-program was predicted by similar changes in knowledge, intrinsic motivation, extrinsic motivation, and career aspirations, demographic characteristics (e.g., age, gender), and mid-program satisfaction and met expectations. In this presentation, we present these findings along with supportive qualitative analyses and discuss their implications for undergraduate research programs in geoscience fields. 

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4. Recruiting and Developing Faculty Mentors to Improve STEM Retention and Success

   Joiner, David; Morreale; Patricia; Hug, Sarah; Swinton, Derrick; Qi, Feng; Spaccarotella, Kim; Rosen, Dina; Amador, Nancy (November 2025, 2025 IEEE Frontiers in Education (FIE( Conference Proceedings)

   This research-to-practice full paper describes a cohort-based undergraduate research program designed to improve STEM retention through structured mentoring and community building. Drawing on the Affinity Research Group (ARG) model, the program fosters faculty-student research collaboration and integrates faculty mentorship training, student-led peer mentoring, and structured interventions, such as research skills workshops and networking events. Each year, faculty from biology, chemistry, computer science, environmental science, and mathematics lead small-group research projects with recruited students who may participate for up to three years. Faculty and students receive ARG training to promote consistent mentoring practices. A credit-bearing, major-specific first-year orientation course supports recruitment and reinforces students’ scientific identity. Faculty also engage in professional development workshops to strengthen student-centered mentoring approaches. Data collection includes surveys, interviews, retention tracking, and weekly journaling to assess STEM identity, belonging, and skill development. External evaluators reviewed the faculty focus groups to assess mentoring effectiveness. Initial findings show strong faculty engagement with the ARG model, with many adopting adaptive mentoring strategies that enhance student support. Students report increased confidence and belonging within their disciplines. However, cross-disciplinary collaboration remains limited, highlighting the need for more intentional networking within the cohort. Students also emphasized the value of peer collaboration alongside faculty mentorship. These results suggest that undergraduate research can serve as a powerful tool for building community and supporting persistence in STEM. Ongoing efforts will focus on expanding networking opportunities, strengthening peer collaboration, and evaluating long-term impacts on student retention. 

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5. Just keep swimming: Increasing resilience of STEM preservice teachers during COVID-19

   Catherine M. Lussier University of California, Riverside Ashley M. (March 2023, Journal of instructional pedagogies)

   A substantial achievement gap between K-12 English learners (ELs) and non-ELs in science, technology, engineering, and mathematics (STEM) content areas exists, as indicated by national assessments of student outcomes. Considering the expected steady increase in students who are ELs in the U.S., determining methods for addressing this achievement gap is of immediate concern. Research has indicated this gap may be exacerbated by lack of adequate teacher preparation, specifically in STEM fields, to effectively teach students who are culturally and linguistically diverse (CLD). Founded in previous research about effective teacher preparation, the current case study pilots and reports on a model of early STEM preservice teacher training that integrates: knowledge of language development for ELs, early experiences with CLD learners, and professional development activities that guide the implementation of STEM pedagogical methods. Five STEM preservice teachers participated in a year-long supplemental training program focused on adapting STEM instruction for ELs. Components of the supplemental program included: (a) coursework extending teacher knowledge of EL language development, (b) fieldwork providing early exposure to research-based teaching experiences with EL students, and (c) professional development guiding the creation of hands-on STEM curriculum for diverse learners. Five secondary preservice teachers experienced increases in self-efficacy, growth in STEM instructional practices, and greater motivation for teaching in high-need schools. Results will inform educational models for improving STEM-EL teaching, thereby addressing a crucial need to serve the growing national population of underserved students. 

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