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1. A Mentor’s Reflection on Challenges of Practice in a Scholarship Program for Lower-Income Computing Students

   Solis, T; Secules, S; Kumar, N; Georgiopoulos, M (June 2024, 2024 ASEE Annual Conference)

   This paper describes an NSF (National Science Foundation) S-STEM-funded scholarship program, representing a collaborative five-year grant project among three prominent universities in the Southeast region of the United States. Its primary objective is to support dedicated scholars in graduating and finding a professional pathway. Each institution recruited a cohort of 15-20 scholars annually for three years. The project offers scholarships and provides curricular and co-curricular support to academically talented but financially challenged students in the computing disciplines, including Computer Science, Computer Engineering, Cybersecurity, and Information Technology majors, starting from their junior years. The program aims to impact 150 scholars, most of whom are underrepresented in computing. Scholars receive support throughout their graduation and beyond should they pursue graduate studies in a STEM (Science, Technology, Engineering, and Math) discipline at any of the three participating institutions. 

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2. Board 185: “Someone has Invested in Me to Do This": Supporting Low-Income Students to Persist in STEM Through a NSF S-STEM Grant

   https://doi.org/10.18260/1-2--46749  

   Funk, Rachel; Lewis, Jim; Pai, Leilani; Cristobal, Johan Benedict; Rader, Brittany (June 2024, ASEE Conferences)

   Funded by the National Science Foundation, the S-STEM project, STEM CONNECT (Award No. 1930211) involves a partnership among three institutions (including one bachelor’s degree-awarding and two associate’s degree-awarding institutions) aimed at supporting cohorts of low-income, high achieving students (“Scholars”) to succeed in obtaining a STEM degree that emphasizes computer science and mathematics. The project is particularly interested in supporting women, underrepresented minorities, first generation students, transfer students, and rural students. The project uses a variety of mechanisms to support Scholars, including providing academic support through tutoring, connecting Scholars with faculty and peer mentors, developing community-building activities (e.g., Puzzle Hunts, documentary viewings), and providing career development activities (e.g., tours of local engineering and technology businesses). In this poster session, we present an analysis of data on students’ academic progress (e.g., grades, graduation rates) and STEM work experiences (e.g., internships, research opportunities) as well as a qualitative analysis of student interview data to describe to what extent and how project structures and activities have helped Scholars to persist in their selected STEM majors and STEM career pathways. Specifically, we conducted a qualitative thematic analysis of data from student focus groups held over a period of three years (three in Spring 2021, nine in Spring 2022, and eight in Spring 2023), during which Scholars were asked to reflect on and evaluate components of the project, as well as interviews with five women Scholars about their experiences. We used theories of capital (e.g., social capital theory, Yosso’s cultural wealth model) to aid in the development of themes. Overall, Scholars valued the extent to which the project invested in their educational and professional success. Major themes highlight the importance of mentors, positioning Scholars as STEM professionals, and academic support structures in increasing Scholars’ sense of belonging and desire to persist in STEM. Mentors were shown to play a critical role in a.) supporting times of transition (e.g., transitioning from applied to proof-based courses, transitioning from small class sizes at a community college to large enrollment courses at a bachelor’s degree-awarding institution) b.) helping Scholars get “a foot in the door” to obtain relevant work experiences and c.) assisting students in navigating academic structures perceived as barriers to their academic pathway. Scholars also valued project opportunities that allowed students to envision themselves as professionals (e.g., through speakers who talked about their professional journey, by interacting with “like-minded peers” that have similar “goals and drives”) and that positioned Scholars as professionals (e.g., by inviting Scholars to serve as panelists at local events, by giving students funding to attend a STEM conference). Further, Scholars appreciated the project’s efforts to enroll scholars in the same sections of courses, as Scholars saw the value in being able to collaborate with peers that they know. Finally, an overarching theme from these data was that project structures and activities were often successful because they built upon the assets (e.g., aspirations) that Scholars brought with them to college. 

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3. NSF S-STEM Program - Supporting Undergraduate Cohorts of Career-Ready Engineering and Science Scholars (SUCCESS) Project at WVU Tech – Year 2 updates

   https://doi.org/10.55632/pwvas.v95i2.1008  

   Hatipoglu, Kenan; Panta, Yogendra; Bui, Cao Thang; Floyd-Smith, Tamara; Neff, Joan (April 2023, Proceedings of the West Virginia Academy of Science)

   The SUCCESS project’s main goal is to recruit, retain, and graduate low-income STEM students at WVU Tech and this abstract contains updates for Year 2. The recruitment activities started in early 2021 and continued during the summer of 2021 to form Cohort 1 and during the summer of 2022 to form Cohort 2. Currently, there are 19 scholars/students in the program. 12 new students (10 Computer Science (CS) and 2 Information Systems (IS) majors) were accepted in Fall 2022 and these 12 students are forming Cohort 2. 6 students were accepted into Electrical Engineering (EE) (4), Computer Engineering (CpE) (1), and CS (1) programs in Fall 2021. 2 EE and 1 CS students entered the program in Spring 2022. Two students (both EEs) stopped out of school for mainly their personal issues. These 7 students are forming Cohort 1. So far, scholars have completed at least one entrepreneurship course, attended career fairs, met with industry mentors, and attended senior design presentation events. Some of the scholars work with faculty on research projects. Students are actively engaging with the IEEE/ACM student branches and some of the scholars took leadership positions in these organizations. The SUCCESS team is regularly collecting and analyzing feedback from scholars to ensure that the necessary improvements are implemented. Every semester, scholars’ feedback is collected through pre-, mid-, and post-surveys. These surveys provide insights into scholars’ course/program performance, career updates, and also the level of persistence toward their program of study and entrepreneurship minor. This project is funded by NSF DUE S-STEM Program from 2021-2026. 

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4. Bridging the Gap: Mentorship and Career Support for Neurodivergent STEM Scholars

   https://doi.org/10.62935/z2474e  

   Sullivan, Dylan; Hoder, Katherine; Vittum, Michael; Scheff, Rebecca; Deng, Yar; Matte, Rebecca; Monroe, Christin (March 2025, Chronicle of Mentoring & Coaching)

   The increasing recognition of neurodiversity (ND) within science, technology, engineeringand mathematics (STEM) fields has led to a growing demand for inclusive educationalpractices that support neurodivergent scholars. This paper explores the impact ofmentorship, career counseling, and the use of strengths-based assessments, such as theBirkman® assessment, on the career readiness of neurodivergent students at LandmarkCollege’s S-STEM program. Using social cognitive career theory (SCCT) as a framework,we analyze longitudinal data from program participants, highlighting an increase ininternship participation and career confidence. Interviews with recent graduates reveal keychallenges in the post-graduation transition period, the role of professional networks, andthe importance of near-peer mentoring in career persistence. The study underscores thecritical need for structured post-graduate support and proposes a near-peer mentorshipmodel to facilitate career integration for neurodivergent STEM graduates. Findingscontribute to the growing literature on ND inclusion in STEM and offer actionable insightsfor higher education institutions. 

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5. Future Career Pathway Perceptions of Lower-Income Computing Students Through the Lens of Capital Exchange

   Bond-Trittipo, B.; Kumar, N.; Secules, S.; Solis, T (July 2022, The 2022 Annual Conference and Exposition)

   Prior scholarship on broadening participation in undergraduate computing education has made important contributions to supporting underrepresented students’ identity development and persistence. However, the specific experiences of low-income students are underexplored, and the critical juncture between undergraduate education and career or graduate school pathways are as well. For scholarship support programs to make a further impact on broadening participation in computing, it is critical to know low-income students’ viewpoints on the barriers, risks, and opportunities associated with different career pathways that influence their post-graduation plans. Our research seeks to better understand the future career pathway perceptions of low-income undergraduate computing students. We explore students’ perceptions of three specific pathways: pursuing a graduate degree, working for a large company, and becoming an entrepreneur. This study utilizes Bourdieu’s conception of economic capital, cultural capital, and social capital to understand low-income students’ perceptions of their future career pathways. This study is a part of a National Science Foundation-funded program that provides need-based scholarships, internship connections, research opportunities, and entrepreneurial education to low-income students pursuing a bachelor’s degree in computer science, information technology, cybersecurity, or computer engineering. The program includes three large, public universities in the Southeast United States and was launched in September 2021. We conducted semi-structured interviews with 16 participants from one of the participating universities to gather information about their perceptions of professional, graduate school, and entrepreneurial career pathways. The interviews were transcribed verbatim and analyzed using thematic coding. We found that the majority of our low-income participants plan to work for a large technology-focused company immediately after graduation. However, some participants indicated that the program’s scholarship, which covers up to two years of graduate education in a computing field, gives them the ability to consider pursuing a master’s degree between completing their bachelor’s degree and entering the workforce. Additionally, though many participants expressed that the idea of becoming an entrepreneur is appealing, the financial risks associated with entrepreneurship deter them from considering this career pathway themselves. Ultimately, our findings suggest that financial stability is a crucial consideration for low-income computing students as they contemplate their future goals. The participants’ responses demonstrate the importance of need-based financial aid and internship connections for low-income computing students. Furthermore, our findings indicate that intervention programs that aim to support low-income students’ career development should be more sensitive to the unique perspectives and financial concerns of low-income students when they promote graduate school and entrepreneurial pathways. 

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