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1. Work in Progress: Impacting Engineering First-year Student Retention Through a Nonconventional Engineering Learning Community

   https://doi.org/10.18260/1-2--35647  

   Bartolomei-Suarez, Sonia; Jimenez, Manuel; Guillemard, Luisa; Suarez, Oscar; Santiago-Román, Aidsa; Santiago, Nayda; Lopez del Puerto, Carla; Quintero, Pedro; Cardona-Martínez, Nelson; Valentin, Anidza (June 2020, 2020 ASEE Virtual Annual Conference)

   This work in progress explores the impact of activities developed to improve students’ persistence in engineering undergraduate programs as part of a five-year NSF grant. The Program for Engineering Access, Retention, and LIATS Success (PEARLS), has been running for one year in the College of Engineering (CoE) in our institution attempting to increase persistence, retention and graduation rates, and professional success of low-income, academically talented students (LIATS). This paper describes the design of a novel engineering learning community (ELC) introduced as part of the PEARLS project interventions. The ELC is fostered through activities included in a course designed for PEARLS first-year students. During the course, first-year and senior students engaged in different ways: through senior design and capstone projects, peer demonstrations of team projects, and lab visits. We discuss the course structure, activities, and early findings of its implementation. 

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2. Work in Progress: Building Career Goals and Boosting Self-efficacy in Engineering Students

   Jimenez, Manuel; Guillemard, Luisa; Bartolomei, Sonia; Suarez, Oscar M.; Lopez, Carla; Quintero, Pedro; Santiago, Aidsa; Santiago, Nayda; Cardona, Nelson; Rodriguez, Manuel (July 2021, ASEE annual conference exposition)

   null (Ed.)

   This work in progress presents the development and implementation of an Individual Development Plan (IDP) for undergraduate and first-year master’s engineering students. The IDP was designed and tailored as one of several strategies to increase retention and graduation rates for engineering students participating in the Program for Engineering Access, Retention, and LIATS Success (PEARLS). This program provides scholarships to low income, academically talented students (LIATS), and promotes their academic success and on-time graduation. We show how the IDPs, paired with a faculty mentoring component are able to produce a powerful mechanism to boost LIATS actions, propelling them to become highly competitive engineering students. 

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3. Championing Hispanic Student Success following Natural Disasters in Puerto Rico

   https://doi.org/10.18260/1-2--36790  

   López del Puerto, Carla; Bellido, Carmen; Suarez, Oscar; Alfaro, Mónica; Jimenez, Manuel (July 2021, 2021 ASEE Virtual Annual Conference)

   null (Ed.)

   Natural disasters, such as 2017 hurricanes Irma and María, the 2020 earthquakes in Puerto Rico and the ongoing COVID-19 pandemic, affect students in many aspects including economic, socio-emotional, and academic performance progress. To ensure that students can cope with the aftermath of such searing events, it is necessary to develop initiatives that address these three aspects. Satisfying the financial need is essential, but a long-term solution is mandatory. Hence, providing socio-emotional and academic support and cultivating a sense of purpose are critical to prevent attrition. To secure continued STEM success among students affected by natural disasters, the National Science Foundation has funded several projects at the University of Puerto Rico, a Hispanic Serving Institution. This manuscript presents four NSF-funded projects sharing the common goal of providing support to STEM students to ensure that they succeed despite the said challenges. The first project, titled Nanotechnology Center for Biomedical, Environmental and Sustainability Application, leans heavily on research teams dedicated to design new Nanotechnology platforms to address biomedical and environmental challenges and simultaneously trains a new generation of nanoengineers and nanoscientists throughout the educational echelon starting from public intermediate schools through doctoral programs. The second project, entitled Ecosystem to Expand Capabilities and Opportunities for STEM-Scholars (EECOS), developed an integrated framework that provides support to 62 low-income, talented, STEM students who were severely affected by Hurricane María and 2019-2020 earthquakes (58 undergraduate and 4 graduate). The project provided participants with financial, academic, socio-emotional, and career motivation support needed to complete their programs. The third project, Program for Engineering Access, Retention, and LIATS Success (PEARLS) addresses college access and economic hardships of Low-Income Academically Talented Students (LIATS). It aims at increasing the retention and academic success of talented engineering students coming from economically disadvantaged families. The fourth project, Resilient Infrastructure and Sustainability Education – Undergraduate Program (RISE-UP), has developed an interdisciplinary curriculum to educate cadres of Hispanic students on infrastructure resilience to temper and to overcome the effects of such natural disasters. Three campuses of this institution system collaborate in this interdisciplinary undertaking. Participating students are pursuing undergraduate degrees in engineering, architecture, and surveying who take the entailed courses together and participate in co-curricular activities (both online and in-person through site visits). The new curricular endeavor prepares them to design infrastructure that can withstand the impact of natural events. The expect outcome is to form cohorts of graduates ready to take on real-life infrastructure failures caused by disasters and provide them with an edge in their future professions. The present work provides a range of scalable and portable strategies that universities with underrepresented minorities in STEM programs could deploy to address the immediate and continued needs of students affected by natural disasters to secure academic success. These strategies can contribute to the development of professionals with the skills and experience to deal with severe circumstances such as those effected by natural disasters as well as the preparation to solve infrastructure challenges. 

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4. Championing Hispanic Student Success following Natural Disasters in Puerto Rico

   Lopez, Carla; Bellido, Carmen M.; Suarez, Oscar M.; Alfaro, Monica; Jimenez, Manuel (July 2021, ASEE annual conference exposition)

   null (Ed.)

   Natural disasters, such as 2017 hurricanes Irma and María, the 2020 earthquakes in Puerto Rico and the ongoing COVID-19 pandemic, affect students in many aspects including economic, socio-emotional, and academic performance progress. To ensure that students can cope with the aftermath of such searing events, it is necessary to develop initiatives that address these three aspects. Satisfying the financial need is essential, but a long-term solution is mandatory. Hence, providing socio-emotional and academic support and cultivating a sense of purpose are critical to prevent attrition. To secure continued STEM success among students affected by natural disasters, the National Science Foundation has funded several projects at the University of Puerto Rico, a Hispanic Serving Institution. This manuscript presents four NSF-funded projects sharing the common goal of providing support to STEM students to ensure that they succeed despite the said challenges. The first project, titled Nanotechnology Center for Biomedical, Environmental and Sustainability Application, leans heavily on research teams dedicated to design new Nanotechnology platforms to address biomedical and environmental challenges and simultaneously trains a new generation of nanoengineers and nanoscientists throughout the educational echelon starting from public intermediate schools through doctoral programs. The second project, entitled Ecosystem to Expand Capabilities and Opportunities for STEM-Scholars (EECOS), developed an integrated framework that provides support to 62 low-income, talented, STEM students who were severely affected by Hurricane María and 2019-2020 earthquakes (58 undergraduate and 4 graduate). The project provided participants with financial, academic, socio-emotional, and career motivation support needed to complete their programs. The third project, Program for Engineering Access, Retention, and LIATS Success (PEARLS) addresses college access and economic hardships of Low-Income Academically Talented Students (LIATS). It aims at increasing the retention and academic success of talented engineering students coming from economically disadvantaged families. The fourth project, Resilient Infrastructure and Sustainability Education – Undergraduate Program (RISE-UP), has developed an interdisciplinary curriculum to educate cadres of Hispanic students on infrastructure resilience to temper and to overcome the effects of such natural disasters. Three campuses of this institution system collaborate in this interdisciplinary undertaking. Participating students are pursuing undergraduate degrees in engineering, architecture, and surveying who take the entailed courses together and participate in co-curricular activities (both online and in-person through site visits). The new curricular endeavor prepares them to design infrastructure that can withstand the impact of natural events. The expect outcome is to form cohorts of graduates ready to take on real-life infrastructure failures caused by disasters and provide them with an edge in their future professions. The present work provides a range of scalable and portable strategies that universities with underrepresented minorities in STEM programs could deploy to address the immediate and continued needs of students affected by natural disasters to secure academic success. These strategies can contribute to the development of professionals with the skills and experience to deal with severe circumstances such as those effected by natural disasters as well as the preparation to solve infrastructure challenges. 

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5. BOARD # 287: NSF S-STEM: Advancing STEM Undergraduate Success and Persistence through Scholarship, Mentorship, and Increased Sense of Belonging

   https://doi.org/10.18260/1-2--55651  

   Chang, Jen-Mei; Trajkovic, Jelena; Galvez, Gino (June 2025, ASEE Conferences)

   This paper examines the impact of a National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics (NSF S-STEM) Program at a large, Minority-Serving institution in the western U.S. Despite growing efforts to diversify STEM fields, underrepresented minority (URM) students continue to face significant challenges in persistence and success. This scholarship program addresses these challenges by providing financial support, faculty and peer mentorship, and skills development opportunities to academically talented and low-income URM STEM students. This study evaluates how participation in the program enhances key noncognitive skills, such as students' sense of belonging, leadership and collaboration skills, and science identity, which are critical to STEM persistence. Using both survey and university-based data among the 47 participating scholars, results reveal that program participants report strong levels of sense of belonging, high efficacy in leadership and collaboration skills, and strong science/math identities. Additionally, compared to university rates, scholarship students showed above-average retention and graduation rates, with the majority pursuing graduate studies or careers in STEM. These findings highlight the importance of comprehensive support programs that integrate financial aid, mentorship, and professional development to promote persistence and success among URM students in STEM fields. 

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