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1. PhD Progression: a micro-credentialing program motivates and supports PhD students’ professional development at a US University

   https://doi.org/10.1108/SGPE-07-2023-0070  

   Gnangnon, Bénédicte; Li, Kuang; Rezaei, Dena Fatemeh; Marks, Mishonne Maryann; Dellarocas, Chrysanthos; Hokanson, Sarah Chobot; Goldman, Sasha B (July 2024, Studies in Graduate and Postdoctoral Education)

   PurposeThis study aims to present the evaluation of a competency-based online professional development training program, PhD Progression, tied to a digital badge system, created to support PhD students across fields. Design/methodology/approachThis study took place at Boston University, a large, nonprofit, Carnegie Classified R1 research-intensive institution located in the northeastern region of the USA. Through internal campus collaborations, the authors developed a PhD core capacities framework. Building from this framework, the authors designed the first learning level of the program and ran a pilot study with PhD students from various fields and at different stages of their PhD. Using surveys and focus groups, the authors collected both quantitative and qualitative data to evaluate this program. FindingsThe quantitative and qualitative data show that the majority of the PhD student participants found the contents of the competency-based training program useful, appropriate for building skills and knowledge and therefore relevant for both their degree progress and their future job. Gaining digital badges significantly increased their motivation to complete training modules. Practical implicationsThis type of resource is scalable to other institutions that wish to provide self-paced professional development support to their PhD students while rewarding them for investing time in building professional skills and enabling them to showcase these skills to potential employers. Originality/valueThis study demonstrates, for the first time, that tying a digital badging system to a competency-based professional development program significantly motivates PhD students to set professional development goals and invest time in building skills. 

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2. “That Sounds like Something Geniuses Do”: Exploring How Vertical Transfer Computing Students Conceptualize PhD Pathways

   https://doi.org/10.1353/rhe.0.a926783  

   Blaney, Jennifer; Hernandez, Theresa; Wofford, Annie; Feldon, David (May 2024, The Review of Higher Education)

   There are currently too few computer science faculty to meet student demand, and faculty from historically minoritized groups are severely underrepresented. Expanding pathways from community colleges to PhDs is one critical avenue to both grow and diversify the computer science professoriate that has been underexplored. To gain insight into these pathways, this phenomenological study utilizes interviews with community college transfer students in computer science to examine how they conceptualize PhD study as part of their academic trajectories. Findings highlight experiences (e.g., serving as a tutor) that promote early interest in PhDs among this diverse and talented group of students. 

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3. Building Transfer Student Interest in Computer Science PhDs: Examining an Advising Intervention Using a Staged Innovation Design

   https://doi.org/10.1007/s11162-025-09843-9  

   Blaney, Jennifer_M; Feldon, David_F; Wofford, Annie_M; Litson, Kaylee (May 2025, Research in Higher Education)

   Abstract Community college transfer students represent a diverse and talented group to recruit to PhD and other graduate programs. Yet, little is known about practical strategies to support community college transfer students’ access to graduate training. Focusing specifically on transfer students in computer science and guided by social cognitive career theory, this manuscript draws on survey data from over 200 community college transfer students and utilizes a staged innovation design to examine a new intervention designed to pique transfer students’ interests in PhD study. Findings suggest that brief targeted interventions can significantly predict transfer students’ perceptions about PhD study, but that more sustained efforts will likely be necessary to influence transfer students’ more tangible degree plans. In addition to highlighting implications for future research, we identify strategies for faculty and staff seeking to support community college transfer students and build access to graduate training. 

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4. Peer mentors' experiences in an online STEM peer mentoring program: “beacons of light”

   https://doi.org/10.1108/IJMCE-03-2023-0033  

   Wendt, Jillian L.; Jones, Vivian O. (April 2024, International Journal of Mentoring and Coaching in Education)

   PurposeRacially and ethnically minoritized (REM) women continue to be underrepresented in science, technology, engineering and mathematics (STEM) programs and careers. Peer mentoring is one strategy that can support their participation. This study explores the experiences of Black women peer mentors in an online peer mentoring program at two historically Black institutions. Design/methodology/approachA qualitative case study approach was utilized to explore the impact of an online peer mentoring program on peer mentors' STEM self-efficacy, sense of community, STEM identity and intent to persist in STEM. FindingsAnalysis identified five themes relating to peer mentors' experiences in the program: (1) an “I can do this” approach: confidence and self-efficacy; (2) utility of like others; (3) “beacons of light”: intersecting and malleable identities; (4) skills development and (5) motivation and reciprocity. Further, challenges of the online relationship were shared. Originality/valueThe study contributes to the body of knowledge by demonstrating the utility of an online peer mentoring model among women mentors enrolled in STEM programs at two historically Black institutions. The findings support those who are historically marginalized in participating in and remaining in STEM. 

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5. Impact of an intensive multi-disciplinary STEM enrichment program on underrepresented minority student success

   https://doi.org/10.1108/JARHE-12-2020-0452  

   Ghazzawi, Dina; Pattison, Donna Lynn; Horn, Catherine; Hardy, John; Brown, Beverly (April 2021, Journal of Applied Research in Higher Education)

   Blessinger, Patrick (Ed.)

   PurposeThis study examines the impact of participation in a STEM Enrichment Summer Bridge Program, funded by the NSF Houston-Louis Stokes Alliance for Minority Participation, on undergraduate student success outcomes, particularly for under-represented students. Design/methodology/approachThe study uses propensity score matching and logistic regression analysis to examine the effects of participation in the STEM enrichment program on graduation and retention in STEM after matching on baseline socio-demographic and pre-college characteristics. FindingsThe analysis found that program participation had a significant effect on increasing both the graduation rates and retention of under-represented minority students in STEM fields. In addition, results indicated that program participation had a particularly strong impact for Pell-eligible students in terms of course grades. Research limitations/implicationsData obtained for this study were limited to a single Hispanic-serving/Asian-serving institution, and therefore are not necessarily representative of the graduation and retention trends of the larger population of underrepresented minority (URM) students across the nation. Originality/valueThis study uniquely adds to the existing body of literature surrounding the retention of URM students in STEM fields by accounting for baseline variables, such as pre-college academic achievement and socio-demographic characteristics, that could lead to bias in estimating results. Specifically, this study addresses limitations of previous studies by comparing participants and non-participants of the STEM enrichment program who are matched on a selection of baseline characteristics. 

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