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1. Puerto Rican Students Rising in STEM: Findings from a Multicampus Collaborative CURE Program to Promote Student Success

   https://doi.org/10.1187/cbe.23-05-0083  

   Alvarez-Berrios, Merlis P.; Haynes, Gabriele (November 2023, CBE—Life Sciences Education)

   Alvares, Stacy (Ed.)

   Although Hispanic population is growing rapidly, Latino students earn fewer STEM degrees than their peers. Therefore, it is mandatory to implement strategies that improve STEM retention and graduation rates for Hispanic students. There is little research about the ways in which multicampus collaborative CUREs combined with additional academic support, affect low-income, Hispanic students and none that focus solely on Puerto Rican students in STEM. Puerto Rico (PR) has a 99% Hispanic population; thus, it is imperative to include PR in education research literature. This study sought to examine the impacts of the Research for Improved Student Experiences (RISE) in STEM program at two campuses of the Inter American University of Puerto Rico. The program included multicampus collaborative CUREs, academic advising, and peer mentoring using quasi-experimental design. Impact assessment included psychosocial metrics such as self-efficacy, science identity and sense of belonging in a pre/posttest design. These findings were triangulated with the differences between treatment and control for retention, pass rate, and course grades. The findings revealed statistically significant improvements on all metrics. This study’s findings support multicampus collaborative CUREs, academic advising, and peer mentoring as useful and effective strategies for improving outcomes for low-income Hispanic students in Puerto Rico. 

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2. Recruiting and Retaining Low-Income Engineering Students Across Four Institutions During a Pandemic: Progress and Lessons Learned from a Track 3 S-STEM Grant

   Castles, R.; Venters, C.; and Goodman, C (June 2022, 2022 American Society for Engineering Education Annual Conference and Exposition)

   In January 2020 East Carolina University (ECU) in partnership with Lenoir Community College (LCC), Pitt Community College (PCC), and Wayne Community College (WCC) was awarded an S-STEM Track 3 Grant (Grant number: 1930497). The purpose of this grant was to support low-income students at each partner institution, to research best practices in recruiting and retaining low-income students at both universities and community colleges, and to research how such programs influence the transfer outcomes from two-year to four-year schools. This grant provides scholarship support for two cohorts of students, one starting their engineering studies in Fall 2020 and the other starting their engineering studies in Fall 2021. Each cohort was to be comprised of 40 students including 20 students at ECU and 20 students divided among the three partnering community colleges. In addition to supporting student scholarships, this grant supported the establishment of new student support mechanisms and enhancement of existing support systems on each campus. This project involved the creation of a faculty mentoring program, designing a summer bridge program, establishing a textbook lending library, and enhancing activities for students in a living-learning community, expansion of university tutoring initiatives to allow access for community college students, and promoting a new peer mentoring initiative. The program emphasizes career opportunities including promoting on-campus career fairs, promoting internship and co-op opportunities, and bringing in guest speakers from various industry partners. A goal of the program was to allow community college students to build relationships with university students and faculty so they can more easily assimilate into the student body at the university upon transfer. This paper presents the challenges presented to the project in the first year and the pivoting that occurred due the pandemic. Data is presented regarding recruitment of scholars in both cohorts and retention of scholars from year 1 to year 2. 

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3. BOARD # 415: NSF S-STEM: Expanded non-traditional pathways to engineering excellence

   https://doi.org/10.18260/1-2--55792  

   Besser, Deborah; Acton, Katherine; Holte, Jennifer; Nepal, Kundan (June 2025, ASEE Conferences)

   The Alternative Pathways to Excellence (APEX): Engineering a Transfer-Friendly Experience program at the University of St. Thomas is an NSF S-STEM 25-514 Track 2 project, award number 2130042. The aim of the grant is to build a foundation for non-traditional students and transfer students through recruitment, academic support, community-built retention efforts, student success, networking, graduation, and post-graduation placement in industry and/or graduate school. Key to the efforts is development of the support system for high academic potential students from low-income households through removal of systematic curricular barriers, strong empowerment through a community of peers, hidden curriculum mentoring from culturally informed faculty, industry coaching, and up to $10,000 annual scholarships. The inaugural APEX scholar cohort enrolled in Fall 2022. The effectiveness research examines data related to enrollment, retention, and success metrics for students in engineering, specifically comparing these factors among engineering transfer students and the APEX scholars group. Although not all APEX students are transfer students, the program targets the transfer student population by creating new pipelines from five community college partners. This paper reviews key comparison data points, quantitative analysis of this data, qualitative analysis of student feedback, and demonstrates the initial success of the program. 

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4. Work in Progress: NSF S-STEM Program: Recruitment, Engagement, and Retention: Energizing and Supporting Students with Diverse Backgrounds in Mechanical Engineering

   Jamie R. Gurganus, Liang Zhu (June 2019, ASEE annual conference & exposition)

   Recognizing current and future needs for a diverse skilled workforce in mechanical engineering and the rising cost of higher education that acts as a barrier for many talented students with interests in engineering, the NSF funded S-STEM project at a state university focuses resources and research on financial support coupled with curricular and co-curricular activities designed to facilitate student degree attainment, career development, and employability in STEM-related jobs. This program has provided enhanced educational opportunities to more than 90 economically disadvantaged and academically talented undergraduate students in the Mechanical Engineering Department in the past eight years. It is expected that approximately 45 academically talented and financially needy students, including students transferring from community colleges to four-year engineering programs will receive scholarship support in the next 5 years, with an average amount of $6,000 per year for up to four years to earn degrees in mechanical engineering at the University of Maryland Baltimore County (UMBC). Through scholarships and supplemental support services, this program promotes full-time enrollment and will elevate the scholastic achievement of the S-STEM scholars, with a special emphasis on females and/or underrepresented minorities. It will provide a holistic and novel educational experience combining science, engineering, technology and medicine to improve student retention and future career prospects. The project builds on an established partnership between the state university and community colleges to improve and investigate the transfer experience of community college students to four-year programs, student retention at the university, and job placement and pathways to graduate school and employment. A mixed methods quantitative and qualitative research approach will examine the implementation and outcomes of proactive recruitment; selected high impact practices, such as orientation, one-to-one faculty mentoring, peer mentoring, and community building; participation by students in research-focused activities, such as research seminars and undergraduate experiences; and participation by students in career and professional development activities. In this paper, preliminary data will be presented discussing the attitudes and perceptions of the s-stem scholars and comparing students in scholarly programs and non-programmed situations. This research was supported by an NSF S-STEM grant (DUE-1742170). 

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5. NSF S-STEM Program: Recruitment, Engagement, and Retention: Energizing and Supporting Students with Diverse Backgrounds in Mechanical Engineering (Work-in-Progress)

   Jamie R. Gurganus, Liang Zhu (June 2019, ASEE annual conference & exposition)

   Recognizing current and future needs for a diverse skilled workforce in mechanical engineering and the rising cost of higher education that acts as a barrier for many talented students with interests in engineering, the NSF funded S-STEM project at a state university focuses resources and research on financial support coupled with curricular and co-curricular activities designed to facilitate student degree attainment, career development, and employability in STEM-related jobs. This program has provided enhanced educational opportunities to more than 90 economically disadvantaged and academically talented undergraduate students in the Mechanical Engineering Department in the past eight years. It is expected that approximately 45 academically talented and financially needy students, including students transferring from community colleges to four-year engineering programs will receive scholarship support in the next 5 years, with an average amount of $6,000 per year for up to four years to earn degrees in mechanical engineering at the University of Maryland Baltimore County (UMBC). Through scholarships and supplemental support services, this program promotes full-time enrollment and will elevate the scholastic achievement of the S-STEM scholars, with a special emphasis on females and/or underrepresented minorities. It will provide a holistic and novel educational experience combining science, engineering, technology and medicine to improve student retention and future career prospects. The project builds on an established partnership between the state university and community colleges to improve and investigate the transfer experience of community college students to four-year programs, student retention at the university, and job placement and pathways to graduate school and employment. A mixed methods quantitative and qualitative research approach will examine the implementation and outcomes of proactive recruitment; selected high impact practices, such as orientation, one-to-one faculty mentoring, peer mentoring, and community building; participation by students in research-focused activities, such as research seminars and undergraduate experiences; and participation by students in career and professional development activities. In this paper, preliminary data will be presented discussing the attitudes and perceptions of the s-stem scholars and comparing students in scholarly programs and non-programmed situations. This research was supported by an NSF S-STEM grant (DUE-1742170). 

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