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1. Qualitative Investigation on the Failure Experiences of Entrepreneurial Engineering Students

   Katona, T. M. ( July 2021 , 2021 ASEE Virtual Annual Conference Content Access)

   null (Ed.)

   Entrepreneurial education has been rapidly expanding within universities over the past 15 years with colleges of engineering being amongst the most active participants in embedding entrepreneurship into curricular and cocurricular activities (Pittaway & Cope, 2007). Well-developed and theoretically grounded educational interventions have been shown to increase entrepreneurial skills and perception among students. (Pittaway & Cope, 2007; Matlay & Caray, 2007; Duval-Couetil & Wheadon, 2013; Duval-Couetil & Rheed-Roads, 2012). Organizations including the National Science Foundation through the Lean Launch Curriculum and I-Corps program, VentureWell through curriculum development grants and their E-Team program, and the Kern Family Foundation through the Kern Entrepreneurial Education Network (KEEN) have provided significant funding to embed and transform entrepreneurial teaching and practice into colleges of engineering (Matthew et al., 2017; Pistrui, Blessing & Mekemson, 2008; Smith et al. 2017). This activity combines with an added emphasis among engineering programs to develop an entrepreneurial mindset among their engineering students with the belief that this will lead to them being more productive and innovative whether their career path leads them into established industry (becoming “intrapreneurs”) or later as entrepreneurs. While this trend toward developing more entrepreneurially minded engineering students is supported by global economic trends and a rapidly changing work environment, one factor has been largely overlooked in this process. Statistically, most entrepreneurial ventures fail, with disproportionately large value being created from a minority of entrepreneurial endeavors (Coats, 2019). Given this fact, until we find ways to drastically increase the success rate of entrepreneurial ventures, as we increase engineering students’ exposure to entrepreneurship, we are also increasing their exposure to failure very early in their careers. With this exposure, it is unknown whether sufficient preparation and education around project/venture failure is occurring to properly equip entrepreneurially minded engineering students to learn and grow from entrepreneurial failure. In this work in progress study, current and former engineering students who formed entrepreneurial ventures and experienced either failure of the venture or significant failure during the venture are interviewed to better understand the influences that led to both adaptive and maladaptive responses to these failures. Participants have been selected from those that have received funding through the national VentureWell E-Team program. This program awards three levels of funding and provides mentorship, training, and networking for the teams. The study uses the framework developed by Henry, Shorter, Charkoudian, Heemstra, and Corwin (2018) in which they associate pre-failure dispositions related to fixed and growth mindset (Dweck, 2000, 2006) and mastery vs. performance disposition (Pintrich, 2000 a, b). Our work will utilize this framework to guide the research, but more importantly will provide a unique context for analysis, specifically within engineering entrepreneurship, which will add to the body of work and expand the understanding of this pre-failure/post-failure disposition framework. Initial interview data and analysis will be presented in the context of this framework with preliminary insights to be shared with those in the field. 

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2. Training Faculty in Entrepreneurship and Innovation: An Evaluation of the National Science Foundation Innovation-Corps™ Program

   https://doi.org/10.1177/2515127420929383  

   Duval-Couetil, Nathalie ; Huang-Saad, Aileen ; Wheadon, Mandy ( June 2020 , Entrepreneurship Education and Pedagogy)

   Evaluating the impact of entrepreneurship education is difficult given the heterogeneity of programming which presents challenges related to the generalizability of findings. The National Science Foundation’s Innovation-Corps (I-Corps) program, which incentivizes academic researchers to explore the commercialization potential of their research, offers a unique opportunity to examine the outcomes of entrepreneurship and technology commercialization training from an educational perspective given its standardization across populations and settings. We used the four-level Kirkpatrick Model for evaluating the impact of training and education programs to examine faculty experiences with I-Corps in depth. Using a qualitative inquiry methodology, we conducted 26 interviews with faculty innovators across three large public research institutions. Findings revealed that faculty had positive impressions of the program overall and attributed specific knowledge gains to participation. They also described behavioral changes impacting both their research and teaching. However, participants also identified challenges with I-Corps pedagogy and identified opportunities to improve training. This program evaluation and description of specific learning outcomes (skills, knowledge, attitude, and behaviors) contributes to best practices associated with delivering technology commercialization and entrepreneurship training to academic researchers. 

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3. Gender differences in academic entrepreneurship: experience, attitudes and outcomes among NSF I-CORPS participants

   https://doi.org/10.1108/IJGE-10-2020-0166  

   Epstein, Alanna ; Duval-Couetil, Nathalie ; Huang-Saad, Aileen ( August 2021 , International Journal of Gender and Entrepreneurship)

   null (Ed.)

   Purpose Expanding access to entrepreneurship training programs can be a method to increase female involvement in technology commercialization only if these programs adequately address the specific challenges facing female faculty and graduate students. In the context of the US National Science Foundation's Innovation Corps (NSF I-Corps) program, this study examines gender differences in prior experience and attitudes towards the training in order to propose improvements to the program design. Design/methodology/approach This quantitative study uses Pearson's Chi-Square and ANOVA tests on survey data from the I-Corps national program ( n  = 2,195), which enrolls faculty members, graduate students, postdoctoral researchers and industry experts. Findings In comparison to male participants, female I-Corps participants reported less entrepreneurial experience prior to the program, poorer team relationships during the program and lower entrepreneurial intention and technology commercialization readiness at both the beginning and the end of the program. However, no gender differences were found in positive or negative perceptions of the instructional climate or perceptions of program usefulness. Originality/value This study is unique as it is based on a large-scale dataset drawn from sites across the United States. The results support potential changes to I-Corps and similar programs, including providing more explicit instructions for tasks with which female participants have less prior experience than males (e.g. in applying for patents), offering guidance for team interactions, and providing mentorship to assess whether low self-efficacy is leading women to underestimate the potential success of their projects. 

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4. Enabling academic entrepreneurship: the I-Corps experience

   https://doi.org/10.1108/ET-03-2019-0045  

   Al Haddad, Serina ; O'Neal, Thomas ; Batarseh, Issa ; Martoncik, Amber ( March 2020 , Education + Training)

   Purpose This paper addresses the significance of training students in entrepreneurship to enable sustained national and international competitiveness in the knowledge-based global marketplace. Entrepreneurial education is varied, ranging from basic to in-depth courses, including customer-focused programs, such as the National Science Foundation (NSF) sponsored Innovation Corps (I-Corps) program. This program is nationally-renowned with strong academic roots. A full site was launched at the University of Central Florida (UCF) in January 2015 and was the first I-Corps program in the state of Florida. Design/methodology/approach This paper addresses the importance of entrepreneurship education, reviews the available national training programs in entrepreneurship, presents the design methodology of the NSF I-Corps program, and analyzes the results of the teams who have participated in the NSF I-Corps program. Findings The results are categorized into innovative areas and show the percentage of teams who participated in the I-Corps program in each area. It also identifies the percentage of teams who engaged in actual startup activities following I-Corps participation. Practical implications Educators, students, and trainers can use the findings to benchmark the outcomes of training programs in entrepreneurship. Students and innovators interested in participating in I-Corps can use this paper to obtain insights and a broader understanding of what was done in terms of results and implications. Originality/value This paper contributes a unique analysis of the I-Corps program approach and its outcomes since its launch in 2015 and can be used as a reference for any training program in entrepreneurship. 

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5. To entrepreneur or not to entrepreneur? How identity discrepancies influence enthusiasm for academic entrepreneurship

   https://doi.org/10.1007/s10961-023-09994-w  

   Pattnaik, Shashwatashish ; Mmbaga, Nick ; White, T. Daniel ; Reger, Rhonda K. ( February 2023 , The Journal of Technology Transfer)

   Recognizing the commercial potential of university-based inventions and discoveries, legislators and administrators have called upon academic scientists to become academic entrepreneurs. Yet, few academic scientists appear enthusiastic about taking on entrepreneurial activities. The intrinsic reasons underlying the lack of enthusiasm are poorly understood. We extend the research by applying self-discrepancy theory to explore the role of future-oriented self and other guides on enthusiasm for academic entrepreneurship. Integrating self-discrepancy theory with social identity theory, we also examine the moderating effects of scientist identification and academic entrepreneur social identification. We test our model on a sample of National Science Foundation (NSF) funded academic scientists who participated in the Innovation Corps (I-Corps) entrepreneurship training program. We find academic scientists’ self-guides influence their enthusiasm for academic entrepreneurship, while interestingly, their other-guides do not. Additionally, we find that higher identification with a scientist identity enhances the positive effect of the self-guide on entrepreneurial enthusiasm while higher identification with an academic entrepreneur identity attenuates the positive effect. Our paper contributes to the academic entrepreneurship literature by developing and testing a framework that integrates self-discrepancy theory with social identity theory for a nuanced understanding of academic scientists’ thought processes regarding engagement in entrepreneurial activities. Our study has implications for research policy by suggesting a way that universities can identify candidates for academic entrepreneurship activities.

    

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