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1. Enhancing the Success of Minority STEM Students by Providing Financial, Academic, Social, and Cultural Capital

   Enriquez, A. G.; Lipe, C. B.; Price, B. (June 2017, ASEE annual conference & exposition)

   Research has shown that student achievement is influenced by their access to, or possession of, various forms of capital. These forms of capital include financial capital, academic capital (prior academic preparation and access to academic support services), cultural capital (the attitudes, knowledge, and behaviors related to education which students are exposed to by members of their family or community), and social capital (the resources students have access to as a result of being members of groups or networks). For community college students, many with high financial need and the first in their families to go to college (especially those from underrepresented minority groups), developing programs to increase access to these various forms of capital is critical to their success. This paper describes how a small federally designated Hispanic-serving community college has developed a scholarship program for financially needy community college students intending to transfer to a four-year institution to pursue a bachelor’s degree in a STEM field. Developed through a National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics (S-STEM) grant, the program involves a collaboration among STEM faculty, college staff, administrators, student organizations, and partners in industry, four-year institutions, local high schools, and professional organizations. In addition to providing financial support through the scholarships, student access to academic capital is increased through an intensive math review program, tutoring, study groups, supplemental instruction, and research internship opportunities. Access to cultural and social capital is increased by providing scholars with faculty mentors; engaging students with STEM faculty, university researchers, and industry professionals through field trips, summer internships, professional organizations, and student clubs; supporting student and faculty participation at professional conferences, and providing opportunities for students and their families to interact with faculty and staff. The paper details the development of the program, and its impact over the last five years on enhancing the success of STEM students as determined from data on student participation in various program activities, student attitudinal and self-efficacy surveys, and academic performance including persistence, retention, transfer and graduation. 

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2. Examining an NSF S-STEM Community College program through an Identity Lens

   Edwards, Jan; Mazilu, Ana (June 2025, https://peer.asee.org/)

   S-STEM scholarships are provided to academically talented low-income engineering students with the intent of increasing retention as well as successful transfer and subsequent graduation rates for a bachelor's degree in an Engineering or Computer Science (ECS) field. Since the spring of 2020, 71 unique students have been awarded scholarships. At this time, there are 22 active scholars, 34 have already successfully transferred to complete their ECS degree and a quarter of those scholars have since graduated. Beyond the financial support, NSF S-STEM programs center on providing academic, social and professional development. In addition, the research component of this program at a midwestern HSI community college is exploring the following questions: Do students recognize themselves as engineers prior to transfer? Do students feel a sense of belonging in their Engineering and Computer Science programs? Does being an NSF S-STEM Scholar impact either of these outcomes? The importance of developing a strong engineering identity as an indicator of persistence to degree completion has been the focus of considerable research over the last fifteen years. However, there is limited understanding of how community college experiences influence engineering identity development. Since the spring of 2020, students have been completing surveys during the first six weeks of the fall semester and during the last four weeks of the spring semester. Engineering identity was explored with questions centered on interest, recognition and competence as well as self-efficacy in skills such as tinkering, design and experimentation. Sense of belonging indicators were examined in terms of inclusion, sense of belonging to the community and sense of belonging to their major. This paper will provide quantitative analysis of the data examining outcomes based on demographics including ethnicity, gender, scholar status and length of time in the program. 

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3. 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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4. Board 265: Enhancing the Transfer Experience through a Collaborative Cohort Program: the Culmination of a 5-year NSF S-STEM Program at a Community College

   Dancz, Claire L_A; Adams, Elizabeth A; Orfi, Nihal; Evans, Emily (June 2024, 2024 ASEE Annual Conference & Exposition)

   This paper reports on the culmination of an NSF Scholarships in Science, Technology, Engineering and Mathematics (S-STEM) awarded to a two-year college located in a metro area with high rates of concentrated poverty and low levels of educational attainment. This two-year college is a minority-serving institution with curriculum to prepare students majoring in engineering to transfer and complete a baccalaureate degree at a four-year university. The Engineering Scholars Program (ESP) was established in fall 2019 to award students majoring in engineering annual scholarships of up to $6000, depending on financial need. In addition to supporting students through scholarships, the program engages scholars in professional development activities inclusive of academic seminars, extracurricular events, and undergraduate research opportunities in collaboration with the local four-year university. The program also established a mentorship structure with faculty mentors, student peer mentors, and academic advising. In addition to supporting scholars at the two-year college, the ESP provides support for a portion of cohorts that have transferred to the local four-year university and remained connected to the program. To date, the ESP has awarded a total of 131 semester long scholarships; 16 in year one (2019-2020), 28 in year two (2020-2021), 35 in year three (2021-2022), including six transfers, 38 in year four (2022-2023), including eight transfers, and 28 in year five (2023-2024), including 10 transfers. In year three, the ESP was awarded supplemental funding to support a larger portion of students and transfer cohorts; this helped reduce the financial burdens resulting from exacerbated financial needs due to the COVID-19 pandemic during years two and three of this project. This paper details the progress made towards the achievement of the program goals of creating a welcoming STEM climate at the two-year college, increasing the participation and persistence in engineering among economically disadvantaged students, and establishing transfer support to the local four-year university. Program evaluation findings have identified several opportunities for sustaining scholar transfer support outside of the financial support provided in the form of scholarships. These opportunities fell into two major themes: (1) peer-led transfer support inclusive of connecting transferred students and students preparing for transfer with emphasis on navigating different university structures, and (2) collaboration across engineering disciplines to develop and offer interdisciplinary undergraduate research and/or collaborative work on other projects. Furthermore, research findings from interviews with scholars provided additional context for taking action on program outcomes while also enhancing the understanding of how participation in a collaborative cohort experience can contribute to students’ membership within the STEM community and the construction of their own STEM identity. Although formal financial support sunsets during the final year of the ESP, program and research findings have identified programmatic elements that provide key support for students and can be sustained into the future. This paper reports on the program strategy for meeting the future needs of scholars at both the two-year college and the four-year transfer university. 

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5. Board 387: S-STEM: Iron Range Engineering Academic Scholarships for Co-Op Based Engineering Education

   https://doi.org/10.18260/1-2--46972  

   Spence, Catherine; Siverling, Emilie; Soledad, Michelle (June 2024, American Society for Engineering Education Annual Conference and Exposition)

   IRE STEM Scholars program contributes to the national need for well-educated STEM professionals by supporting the retention and graduation of high-achieving, low-income students with demonstrated financial need at Minnesota State University, Mankato. Over its six year duration, this project will fund scholarships to 120 unique full-time students. The IRE STEM Scholars Program provides a financially sustainable pathway for students across the nation to graduate with a Bachelor of Science degree in engineering and up to two years of industry experience. Students typically complete their first two years of engineering coursework at community colleges across the country. Students then join IRE and spend one transitional semester gaining training and experience to equip them with the technical, design, and professional skills needed to succeed in the engineering workforce; it is during this semester that students receive the S-STEM scholarship. During the last two years of their education, IRE students work in paid engineering co-ops, while being supported in their technical and professional development by professors, learning facilitators, and their own peers. The IRE STEM Scholars project financially supports low-income students during the transitional semester, which has two financial challenges: university tuition costs are higher than their previous community college costs, and the semester occurs before they are able to earn an engineering co-op income. In addition, the project provides personalized mentorship throughout students’ pathway to graduation, such as weekly conversations with a mentor. The overall goal of this project is to increase STEM degree completion of low-income, high-achieving undergraduates. As part of the scope of this project, a concurrent mixed-methods research study will be done on engineering students’ thriving, specifically their identity, belonging, motivation, and subjective wellbeing (or mental and physical health). This study will address the following research questions: How do undergraduate students’ engineering identity and belongingness develop over time in a co-op-based engineering program? How do undergraduate students’ motivation and identity connect to overall wellbeing in a co-op-based engineering program? Currently in its second year, the project has supported 20 students, including 6 students on co-op. These six students have been interviewed on their sense of belonging in engineering during their co-op experiences, and have provided multiple survey data points describing IRE students’ experiences in co-op and overall sense of belonging. These IRE STEM Scholars program participant-specific data along with survey data documenting the co-op experiences of all IRE students describe how co-op experiences can be used to provide a financially responsible pathway to an engineering degree for low-income, high achieving students. Future work will utilize these values to identify ways to better support the IRE STEM scholars’ identity development as they move into their first co-op experiences. This project is funded by NSF’s Scholarships in Science, Technology, Engineering, and Mathematics program, which seeks to increase the number of low-income academically talented students with demonstrated financial need who earn degrees in STEM fields. It also aims to improve the education of future STEM workers, and to generate knowledge about academic success, retention, transfer, graduation, and academic/career pathways of low-income students. 

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