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1. Rising to the challenge: adult student perceptions of institutional supports to increase access to careers in biotechnology

   https://doi.org/10.1108/HESWBL-06-2022-0128  

   Portnoy, Lindsay; Sadler, Ash; Zulick, Elizabeth (March 2023, Higher Education, Skills and Work-Based Learning)

   Purpose Amidst continued calls for the democratization of access to higher education for historically underrepresented populations alongside the first global health crisis in a century lies the opportunity to address persistent societal needs: increasing access for underrepresented minority students to educational pathways that lead to careers in lucrative fields of science, technology, engineering and math (STEM). Design/methodology/approach Student participants enrolled in the biotechnology pathway Associates, Bachelors and Masters programs share programmatic experience in an accelerated biotechnology program through a bi-annual survey grounded in the central tenets of social-cognitive career theory aimed at understanding requisite academic, social and financial support for student success. Findings The pathway program described in this paper emerged to address the need to support underrepresented students in degree attainment and taking on roles in the growing field of biotechnology through a novel, multi-degree, multi-institutional pathway to STEM degree attainment and career success. Social implications This work has advanced understanding about how to effectively align higher education institutions with each other and with evolving STEM labor market demands while documenting the impact of essential academic, career and social supports recognized in the literature as high impact practices in broadening participation and increasing retention of underrepresented minority students in lucrative STEM careers. Originality/value Pathway programs which best support student success include robust mentoring, experiential learning and robust student scholarship support, part of the design of this unique pathway program. The authors share how this program utilizes high impact practices to provide low-income, underrepresented minority students with supportive, accelerated biotechnology degrees in preparation for success in the job market. What's more, of all our BS-level graduates thus far, 100% are employed and 93% within the biotechnology field. For many, the opportunity to raise their family out of poverty via a stable, high paying job is directly tied to their successes within this program. 

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2. Lifting an LI, FG, and/or UR Support Program Off the Ground during COVID-19: Successes and Lessons Learned

   Bayas, L. K. (July 2021, 2021 ASEE Annual Conference)

   Researchers describe a need for increased access to and transitional support into STEM graduate education for low-income, academically talented, first-generation and/or underrepresented and minority (LIATFirstGenURM) students [1]. In October 2019, we were awarded an NSF scholarship grant to build infrastructure and provide support to low-income, academically talented, firs-generation, underrepresented, and minority (LIATFirstGenURM) graduate engineering students. As part of the internal evaluation of the program, we interviewed seven enrolled and funded graduate student beneficiaries to determine if they encountered any barriers during their recruitment and first semester of graduate study. Additionally, we asked them what support they valued most. We found that these students valued the organizational program support system, and as a result, we also found several opportunities to improve the system. In this paper, we share our findings and discuss implications for program updates 

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3. Educating the Next Generation of Cybersecurity Experts

   Katerina Goseva-Popstojanova, West Virginia; Robin A.M. Hensel, West Virginia (July 2021, 2021 ASEE Virtual Annual Conference Content Access, Virtual Conference)

   null (Ed.)

   The overall goal of the NSF Division of Undergraduate Education (DUE) S-STEM funded "Attracting and Cultivating Cybersecurity Experts and Scholars through Scholarships" (ACCESS) program is to increase Cybersecurity-related STEM degree completion of low-income, high-achieving undergraduate students with demonstrated financial need and to generate knowledge about academic success, retention, persistence, graduation, and career pathways of these students to improve the education of future STEM workers. Specifically, ACCESS aims to contribute towards addressing the tremendous governmental and industry need for highly skilled cybersecurity experts. Program objectives include: (1) increasing annual enrollment of students in the B.S. in Computer and Information Sciences programs with specialization in Cybersecurity; (2) enhancing curricular and extra-curricular student support services and activities for students; (3) strengthening the partnerships with computer and information technology employers; and (4) investigating the impact of the curricular and co-curricular activities on student success. While significant research has been done relative to student success, retention, and persistence to graduation in STEM fields, cybersecurity is a new field of study and factors affecting student recruitment, academic success, retention, persistence to graduation within this field are not known. In year 1, students were recruited, applications were evaluated, and scholarships were awarded to nine academically talented students, beginning fall 2020. Of these students, four are female (one is from an underrepresented minority population) and five are male (three are from underrepresented minority populations). The students engage in a set of co-curriculum activities, including participation in: outreach activities; technical and career development seminars; a cybersecurity-focused student organization; and potentially, cybersecurity undergraduate research and summer internship opportunities. The paper and poster describe the background of the ACCESS program, recruitment and selection of ACCESS scholarship recipients, project activities, and challenges presented by the COVID-19 pandemic. 

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4. Work in Progress: Institutional Context and the Implementation of the Redshirt in Engineering Model at Six Universities

   Knaphaus-Soran, Emily; Delaney, Ann; Tetrick, Katherine; Cunningham, Sonya; Cosman, Pamela; Ennis, Tanya; Myers, Beth; Milford, Jana; Llewellyn, Donna; Riskin, Eve; et al (June 2018, ASEE annual conference & exposition proceedings)

   Low-income students are underrepresented in engineering and are more likely to struggle in engineering programs. Such students may be academically talented and perform well in high school, but may have relatively weak academic preparation for college compared to students who attended better-resourced schools. Four-year engineering and computer science curricula are designed for students who are calculus-ready, but many students who are eager to become engineers or computer scientists need additional time and support to succeed. The NSF-funded Redshirt in Engineering Consortium was formed in 2016 as a collaborative effort to build on the success of three existing “academic redshirt” programs and expand the model to three new schools. The Consortium takes its name from the practice of redshirting in college athletics, with the idea of providing an extra year and support to promising engineering students from low-income backgrounds. The goal of the program is to enhance the students’ ability to successfully graduate with engineering or computer science degrees. This Work in Progress paper describes the redshirt programs at each of the six Consortium institutions, providing a variety of models for how an extra preparatory year or other intensive academic preparatory programs can be accommodated. This paper will pay particular attention to the ways that institutional context shapes the implementation of the redshirt model. For instance, what do the redshirt admissions and selection processes look like at schools with direct-to-college admissions versus schools with post-general education admissions? What substantive elements of the first-year curriculum are consistent across the consortium? Where variation in curriculum occurs, what are the institutional factors that produce this variation? How does the redshirt program fit with other pre-existing academic support services on campus, and what impact does this have on the redshirt program’s areas of focus? Program elements covered include first-year curricula, pre-matriculation summer programs, academic advising and support services, admissions and selection processes, and financial aid. Ongoing assessment efforts and research designed to investigate how the various redshirt models influence faculty and student experiences will be described. 

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5. NSF S-STEM EPIC Scholarship Program

   Atwood, Sara A; DeGoede, Kurt (January 2020, ASEE Annual Conference proceedings)

   Results will be presented from a 5-year NSF S-STEM scholarship program for academically talented women in engineering with financial need. Elizabethtown College’s Engineering Practices with Impact Cohort (EPIC) Scholarship program was launched with an NSF S-STEM grant awarded in 2013. The program developed a pathway for academically talented and financially needy women interested in engineering to successfully enter the STEM workforce. The program targeted three critical stages: 1) recruiting talented women into the ABET-accredited engineering program and forming a cohort of scholars,  2) leveraging and expanding existing high impact practices (including an established matriculation program, living-learning community, collaborative learning model, focused mentoring, and undergraduate research) to support women scholars during their college experience, and 3) mentoring scholars as they transitioned to the STEM workforce or graduate programs. The goals of the scholarship program were to increase the number and percent of women entering engineering at our institution and to increase the graduation/employment rate of EPIC scholars beyond that of current engineering students and beyond that of national levels for women engineers.   At the end of this grant, we have roughly doubled the number of women (22.7%) and underrepresented minority students (14%) in the engineering program. This is comparable to the 2016 national average of 20.9% women and 20.6% underrepresented minority bachelor's graduates in engineering. We have also remained at a consistently high level of enrollment and retention of low-income (18.6% Pell-eligible) and first-generation college students (61%). 83% of the scholars have been retained in the engineering program or have graduated with an engineering degree, which is above the institutional and national average. The remaining scholars transferred to another major but have been retained at the institution. All of the scholars participated in a living-learning community, tutoring, focused mentoring, and a women engineers club. Almost all participated in a pre-matriculation program. 17% of the scholars additionally had an undergraduate research experience and 28% studied abroad. 100% of the scholars had engineering workforce jobs or graduate school acceptances at the time of graduation. This program successfully increased the population of underrepresented minority, low-income, and first-generation women entering the engineering workforce.  

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