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1. Improving First-Year Engineering Student Success with Targeted Financial Assistance, Supplemental Instruction, and Cohort Team Building

   https://doi.org/10.18260/1-2--47591  

   Cruse, Krystal; Boyet, Carl; Palmer, James (June 2024, ASEE Conferences)

   This complete research paper assesses the first-year implementation of an NSF-funded S-STEM effort, the SUCCESS Scholars Program (SSP), established in the Fall of 2022 at Louisiana Tech University. Louisiana Tech University is a Carnegie High Research Activity University that has approximately 20% of its 7500 undergraduates as engineering majors, is geographically distanced from large metropolitan areas but draws its student population both statewide and regionally and operates on the quarter calendar. Louisiana Tech University merged the math, chemistry, and physics programs with the engineering, technology, and computer science programs into a single college in 1995 and created an integrated freshman engineering curriculum in 1998. Louisiana Tech University has a long history of educational innovations in engineering education, with a hands-on project-based approach implemented in 2004 and four other NSF-funded programs to increase student success in engineering since 2007. The SSP builds on these prior efforts by providing financial, academic, personal, and professional support to engineering students starting in their first year of college through four years of academic study. The first cohort of twenty-four students was selected through an application process after learning about the program at orientation. The SSP team focused heavily in the first year on academic support and community building while also providing each student a financial scholarship of up to $10,000 depending on unmet financial need. Throughout the first year, students in the SSP attended a three-day-a-week first-year engineering course instead of the typical two-day-a-week course. This provided additional access to the lab equipment, contact hours with their instructor, practice problems, and helped foster community among the cohort. Additional academic support was provided through supplemental instruction sessions strategically designed to provide support in both their engineering and mathematics courses. These sessions were led by upper-level peer mentors. Students were connected with faculty mentors in their discipline through lunches that the SSP faculty team provided each week. These lunches helped reduce food insecurity while also providing an inviting atmosphere for interaction between peers and faculty. Lunches also offered an opportunity to have career discussions and bring in professional development speakers like student organization leaders and graduate students. At the start of the first quarter of their sophomore year, nineteen students were either still on track or just one quarter behind in their engineering curriculum. This record will be compared with the approximately 420 students who either were eligible or did not take part in this program. Historical data will be reviewed to determine how predictive these initial markers are toward completion of the degree. 

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2. Use of a Common Professional Language to Improve Neurodivergent STEM Scholar Sense of Belonging

   https://doi.org/10.1002/he.20522  

   Monroe, Christin; Coplan, Jan; Sullivan, Dylan; Matte, Rebecca (March 2025, New Directions for Higher Education)

   In a 1‐credit evolving STEM Community and Identity course, low‐income and neurodivergent students participate in cohort activities to build community and develop their professional STEM portfolios. The strengths‐based Birkman Method personality survey is used to enhance STEM identity and clarify communication and work styles. This course involves collaboration between STEM faculty, education faculty, and career counselors. Many neurodivergent students entering college lack confidence and struggle to identify and communicate their strengths, which can affect their academic performance and professional growth. This study documents the benefits of using a common language, based on the Birkman Method, for students, mentors, and career counselors. The language is integrated into the course, mentoring sessions, and students' professional portfolios. As a result, students feel a stronger sense of belonging within their cohort and build more meaningful connections with mentors and career counselors. The Birkman Method also helps neurodivergent students take a more informed approach to job searching, improving their morale, mental health, and employment retention. This paper outlines activities designed to foster a community of scientific thinkers and support professional development at all academic levels of postsecondary education. 

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3. An Integrated Supplemental Program to Enhance the First-year Engineering Experience

   Brown, Ordel; Morris, Melissa; Hensel, Robin; Dygert, Joseph (June 2018, ASEE Annual Conference proceedings)

   Student retention in STEM disciplines, especially engineering, continues to be a challenge for higher education institutions. Poor retention rates have been attributed to academic and institutional isolation, exclusion from social and professional networks, unsupportive peer and family communities, a lack of knowledge about the academic community and financial obstacles. The importance of retention in engineering has attracted increasing attention from many stakeholders in academia including faculty, staff, administrators and students. Its significance goes beyond the benefits for the academic institutions to encompass national concerns. At a large land-grant university in the mid-Atlantic region, between 2003 and 2012, an average thirty percent of first-year engineering students left engineering before their second year. A three-year study (2007-2010) done to gain insight into this attrition rate, showed that students mainly left because of low self-efficacy, lack of interest in and knowledge about engineering and the institution, disconnection from the engineering profession and academic difficulty. To address these issues, an integrated supplemental program was implemented in the first-year engineering program. Students must be in first-time, first-year standing to enroll in the program, which includes a professional development and academic success course beginning with a pre-fall bridge component. The program also provides direct pathways to academic enrichment activities such as undergraduate research. It helps students to develop strategies for academic success, explore engineering careers and start building a professional network through a multi-level peer, faculty and alumni mentoring system. Students are systematically and deliberately immersed in curricular and co-curricular activities with their peer, faculty and alumni mentors. The program was piloted with a NASA Space Grant in 2012 and funded by NSF in 2016. The goal of this evidence-based practice paper is to share the challenges, logistics and results of the implementation of this program in our standard first-year engineering experience. 

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4. Developing a Culturally Adaptive Pathway to Success: Implementation Progress and Project Findings

   Kang, E.; Dong, J.; Jackson, M.; Allen, E.; Galvan, D. (June 2020, ASEE's Virtual Conference)

   With support from NSF Scholarships in Science, Technology, Engineering, and Mathematics (S-STEM), the Culturally Adaptive Pathway to Success (CAPS) program aims to build an inclusive pathway to accelerate the graduation for academically talented, low-income students in Engineering and Computer Science majors at [University Name], which traditionally serves the underrepresented and educationally disadvantaged minority students in the [City Name area]. CAPS focuses on progressively developing social and career competence in our students via three integrated interventions: (1) Mentor+, a relationally informed advising strategy that encourages students to see their academic work in relation to their families and communities; (2) peer cohorts, providing social support structure for students and enhancing their sense of belonging in engineering and computer science classrooms and beyond; and (3) professional development from faculty who have been trained in difference-education theory, so that they can support students with varying levels of understanding of the antecedents of college success. To ensure success of these interventions, the CAPS program places great emphasis on developing culturally responsive advisement methods and training faculty mentors to facilitate creating a culture of culturally adaptive advising. This paper presents the CAPS progress in the past two project years. In particular, we will share several changes that we have made after the first project year to improve several key components of the program - recruitment, cohort building, and mentor training. The program strengthened the recruitment by actively involving scholars and faculties in reaching out to students and successfully recruited more scholars for the second cohort (16 scholars) than the first cohort (12 scholars). Also, the program has initiated new activities for peer-mentoring and cohort gathering within each major. As continuous development of the mentor training, the program has added a training session focusing on various aspects of intersectionality as it relates to individual’s social identities, and how mentors can use these knowledge to better interact with mentees. In addition to these changes, we will also report findings on how the program impacted on scholars’ academic growth and mentors’ understanding about the culturally adaptive advisement to answer the CAPS research questions (a) how these interventions affect the development of social belonging and engineering identity of CAPS scholars, and (b) the impact of Mentor+ on academic resilience and progress to degree. The program conducted qualitative data collection and analysis via focus group meetings and interviews as well as quantitative data collection and analysis using academic records and surveys. Our findings will help enhance the CAPS program and establish a sustainable Scholars Support Program at the university, which can be implemented with scholarships funded by other sources, and which can be transferred to similar culturally diverse institutions to increase success for students who have socio-economic challenges. 

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5. Recruiting and Developing Faculty Mentors to Improve STEM Retention and Success

   Joiner, David; Morreale; Patricia; Hug, Sarah; Swinton, Derrick; Qi, Feng; Spaccarotella, Kim; Rosen, Dina; Amador, Nancy (November 2025, 2025 IEEE Frontiers in Education (FIE( Conference Proceedings)

   This research-to-practice full paper describes a cohort-based undergraduate research program designed to improve STEM retention through structured mentoring and community building. Drawing on the Affinity Research Group (ARG) model, the program fosters faculty-student research collaboration and integrates faculty mentorship training, student-led peer mentoring, and structured interventions, such as research skills workshops and networking events. Each year, faculty from biology, chemistry, computer science, environmental science, and mathematics lead small-group research projects with recruited students who may participate for up to three years. Faculty and students receive ARG training to promote consistent mentoring practices. A credit-bearing, major-specific first-year orientation course supports recruitment and reinforces students’ scientific identity. Faculty also engage in professional development workshops to strengthen student-centered mentoring approaches. Data collection includes surveys, interviews, retention tracking, and weekly journaling to assess STEM identity, belonging, and skill development. External evaluators reviewed the faculty focus groups to assess mentoring effectiveness. Initial findings show strong faculty engagement with the ARG model, with many adopting adaptive mentoring strategies that enhance student support. Students report increased confidence and belonging within their disciplines. However, cross-disciplinary collaboration remains limited, highlighting the need for more intentional networking within the cohort. Students also emphasized the value of peer collaboration alongside faculty mentorship. These results suggest that undergraduate research can serve as a powerful tool for building community and supporting persistence in STEM. Ongoing efforts will focus on expanding networking opportunities, strengthening peer collaboration, and evaluating long-term impacts on student retention. 

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