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1. Introducing the NSF-ATE InnovATEBIO National Biotechnology Education Center

   Smith T, Bock H (August 2020, Journal of biomolecular techniques)

   Community colleges play a vital role in preparing the highly skilled technical workforce needed to support the biotechnology industry. Community colleges offer students hands-on practical experience, certificates, and technical degrees. Students include high-school graduates, individuals changing careers, college graduates, and even PhD holders. As these colleges support the many facets of the biotechnology industry, their laboratories are equipped to teach modern techniques, including DNA sequencing, mass spectrometry, microscopy, chromatography, immunoassays, and bioinformatics. Many programs are also developing education skill standards and curriculum to support the latest biotechnology manufacturing that includes CRISPR-based gene therapies, CAR-T, immuno-therapeutics, and patient derived tissues. Some programs have established contract service organizations and business incubators to catalyze regional economic development and provide internships for students entering the workforce. These college-run organizations share many similarities with ABRF core facilities. Over the last 20+ years, community college biotechnology programs have come together to share experiences and learning through the Bio-Link network. Bio-Link was funded by the NSF-ATE (National Science Foundation Advanced Technological Education) program until the fall of 2018. In the fall of 2019, InnovATEBIO, a new national center for biotechnology education, was initiated through a five-year NSF-ATE award. InnovATEBIO will build on the Bio-Link foundation to further advance connections between high schools, community colleges, and the biotechnology industry to increase the number of highly trained biotechnology technicians in the United States. InnovATEBIO will support activities designed to increase authentic research and work-based experiences and seeks to develop collaborations with ABRF members supporting course development and partner on projects that could be funded by NSF or others. 

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2. The Road to Strengthening 2-year Hispanic-Serving Institution Participation in the NSF ATE Funding Program

   Pickering, Cynthia K.; Craft, Elaine L.; VanIngen-Dunn, Caroline; DeWitt, Emery; Roberts, Richard H.; Slisz, Judith (July 2021, Research in healthcare financial management)

   null (Ed.)

   HSI ATE Hub is a three-year collaborative research project funded by the National Science Foundation (NSF) that joins two successful programs. Mentor-Connect mentors 2-year college faculty to develop competitive proposals for the NSF Advanced Technological Education (ATE) Program, and KickStarter facilitates strategic STEM assessment and planning to drive competitive STEM proposal development at 2-year Hispanic Serving Institutions (HSIs). The goal of HSI ATE Hub is to build capacity and leadership at 2-year HSIs for developing competitive ATE proposals to elevate 2-year HSIs as drivers of their community’s economic success via technician education. Data sets from three annual HSI ATE Hub Cohorts, four prior KickStarter Cohorts, and nine Mentor-Connect Cohorts have been aggregated to assess the following research questions about 2-year HSIs: Are there unique opportunities/barriers/challenges related to STEM program development and grant-writing endeavors for advanced technological education? How do we build capacity to pursue the opportunities and address the barriers/challenges? How do mentoring efforts/styles related to STEM program development and grant-writing need to differ for HSI faculty? What types of resources are relevant to the HSI ATE Community? This third paper in a series will report new data and incremental results from Year 3 of the HSI ATE Hub and a summary of results from the prior two years [1] [2]. These results include interactions with the HSI ATE community through intentional, expanded engagement to enhance learning from Latinx Advisory Council members and training webinars to develop educators’ acumen of culturally responsive instruction and high impact practices. Feedback from interviews and surveys with faculty at 2-year HSIs in HSI ATE Hub Cohorts 1-3 will be discussed to address research questions 1, 2, and 3. Evolved staging of resources relevant to the HSI ATE Community and related research directions for extending the project will address research question 4. 

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3. The Road to Strengthening 2-year Hispanic-Serving Institution Participation in the NSF ATE Funding Program

   Pickering, Cynthia K.; Craft, Elaine L.; VanIngen-Dunn, Caroline; DeWitt, Emery; Roberts, Richard H.; Slisz, Judith (July 2021, ASEE Annual Conference proceedings)

   null (Ed.)

   HSI ATE Hub is a three-year collaborative research project funded by the National Science Foundation (NSF) that joins two successful programs. Mentor-Connect mentors 2-year college faculty to develop competitive proposals for the NSF Advanced Technological Education (ATE) Program, and KickStarter facilitates strategic STEM assessment and planning to drive competitive STEM proposal development at 2-year Hispanic Serving Institutions (HSIs). The goal of HSI ATE Hub is to build capacity and leadership at 2-year HSIs for developing competitive ATE proposals to elevate 2-year HSIs as drivers of their community’s economic success via technician education. Data sets from three annual HSI ATE Hub Cohorts, four prior KickStarter Cohorts, and nine Mentor-Connect Cohorts have been aggregated to assess the following research questions about 2-year HSIs: Are there unique opportunities/barriers/challenges related to STEM program development and grant-writing endeavors for advanced technological education? How do we build capacity to pursue the opportunities and address the barriers/challenges? How do mentoring efforts/styles related to STEM program development and grant-writing need to differ for HSI faculty? What types of resources are relevant to the HSI ATE Community? This third paper in a series will report new data and incremental results from Year 3 of the HSI ATE Hub and a summary of results from the prior two years [1] [2]. These results include interactions with the HSI ATE community through intentional, expanded engagement to enhance learning from Latinx Advisory Council members and training webinars to develop educators’ acumen of culturally responsive instruction and high impact practices. Feedback from interviews and surveys with faculty at 2-year HSIs in HSI ATE Hub Cohorts 1-3 will be discussed to address research questions 1, 2, and 3. Evolved staging of resources relevant to the HSI ATE Community and related research directions for extending the project will address research question 4. 

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4. Applying Project Management Skills to NSF ATE-funded Grants: A roadmap to success for first-time grantees

   Craft, Elaine; Quinn, Buffy; Silver, Pamela (June 2024, Papers on Engineering Education Repository (PEER))

   The National Science Foundation (NSF) Advanced Technological Education (ATE) program is specifically designed to support workforce development that primarily takes place in technician education programs offered at two-year colleges across the nation. Even so, NSF grant funding is infrequently or never pursued by most two-year colleges even though there is a need for funding to support high-cost, high-impact STEM programs. Since two-year colleges are focused on teaching vs. research, securing grants is seldom, if ever, required or even recognized as important as part of tenure and promotion processes at these institutions. As a result, technical/STEM faculty members typically do not have prior grant experience, nor do they have experience in managing a grant-funded project using industry-standard techniques. Guiding new grantees in applying Project Management skills as they implement NSF ATE-funded grants for the first time holds promise for improving project outcomes, reducing the frustration of a steep learning curve for new PIs, and encouraging follow-on grant proposals to the ATE Program. The first two principles of project management, (1) set clear objectives from the start and (2) create a project plan, are required to receive a first grant from NSF. When a grant award is received, two-year college faculty are invariably faced with working grant-funded activities into their already heavily-scheduled work weeks. Knowing about and employing project management skills can make a positive difference in the experience one has as a PI responsible for grant implementation and outcomes. These skills can help prevent chaos as workloads and competing demands for their time increase. To help new PIs learn and use project management skills within the context of NSF expectations so that they may maximize project outcomes and position themselves for subsequent NSF funding. A new professional development opportunity, PI 101, is providing instruction, mentoring, and technical assistance during the first year of project implementation. Based on PI 101 pilot year experiences and research, this support is being strengthened to specifically include the other three principles of project management: (1) organize and manage resources, (2) assess risks and changes throughout the project, and (3) monitor progress and performance on a regular basis. Mentor-Connect Forward, funded by the NSF ATE Program, added a newly developed component that addresses the critical need for first-time grantees to have instruction and support during their first year of project implementation. This professional development opportunity, called PI 101, is being offered to first-time, two-year college PIs to develop skills and help them build confidence by learning to apply proven strategies that can improve project outcomes so that their initial NSF ATE-funded work will build a worthy foundation for future grant awards and associated program improvements and innovation in technician education. PI 101 provides a collegial cohort environment for new PIs as they address issues such as grants management, budgets, and reporting expectations. New PIs can also get answers and receive direction on communication, building internal and external relationships, and developing industry partnerships. An important component of PI 101 is the introduction of the principles of project management as they apply to grant management. The pilot cohort of PI 101 participants received NSF ATE awards in 2023. The impact on the people involved, project progress, and outcomes are being monitored to inform improvements to PI 101 and future research questions. This paper explores the challenges and lessons learned in assisting a cohort of 15 two-year colleges so that they may effectively incorporate principles of project management and other grantsmanship strategies as they implement their first NSF ATE projects. 

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5. Data, Insights, and Solutions to Aid NSF ATE and 2-Year Colleges in Creating and Sustaining "Grant Active" Cultures

   https://doi.org/10.5281/zenodo.10971681  

   Reid, Ben; Hodgson, Shalee; Cooper, Kevin; Dastmozd, Rassoul; Brown, David (April 2024, Journal of Advanced Technological Education)

   The National Science Foundation (NSF) Advanced Technological Education (ATE) program is effective in assisting two-year college (2YC) institutions of higher education to improve the education of technicians in science and engineering, yet grant proposals from 2YCs to ATE (and NSF as a whole) have declined in number over the past decade. The problem of NSF proposals declining in numbers is multifaceted, though data demonstrates that both 2YCs and NSF can reverse or mitigate the decline in ATE proposals through identified measures; 2YCs can change their grants culture through specific institutional changes, and NSF can aid 2YCs to build their capacity to develop competitive proposals through mentoring and professional development sustainably. This article discusses data, insights, and solutions through the lens of two NSF ATE projects: Project Vision (a mentoring project) and Grant Insights (an applied research project). 

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