More Like this

1. LASER-TEC College Profile: Monroe Community College, Rochester, New York

   LASER-TEC (November 2023, Photonics spectra)

   Employers have relied on Monroe Community College (MCC) since 1963 to educate generations of students to become optical technicians. Offering stackable certificate and associate degree programs, MCC is the only community college awarding an Associate of Applied Science degree in optical systems technology. Since the program’s inception, more than 800 students have earned optics credentials from MCC, preparing them for a wide variety of career paths in the global industries of optics, photonics, and imaging throughout the U.S. Companies that have hired students and graduates from MCC’s program include Applied Image, Bausch + Lomb, Corning, Eastman Kodak, IDEX Health & Science, L3Harris Technologies, the Laboratory for Laser Energetics at the University of Rochester, Lockheed Martin, Lumetrics, MIT Lincoln Laboratory, Optimax Systems, OptiPro Systems, QED Optics, Rochester Precision Optics, Sydor Optics, Thorlabs, and Vertex Optics. 

   more » « less
2. LASER-TEC College Profile: Stonehill College, Easton, Massachusetts

   LASER-TEC (August 2023, Photonics spectra)

   Stonehill College offers three photonics programs: a bachelor’s degree, a minor, and a 12-month Photonics Certificate Program in advanced manufacturing and integrated photonics. The certificate program features hands-on training with modern equipment, a field trip to MIT, and an internship — all designed to rapidly prepare students for immediate employment upon completion. Financial assistance is available. Companies for internships and employment have included AccuRounds, Applied NanoFemto Technologies, Dynavac, EMI, Forward Photonics, Instron, IPG Photonics, IQE, Lexitek, MIT Lincoln Laboratory, MKS Instruments, North Easton Machine Co., Optikos, Plymouth Grating, Laboratory, Sheaumann Laser, SiPhox, and Tech Etch. 

   more » « less
3. An Online CURE Taught at a Community College During the Pandemic Shows Mixed Results for Development of Research Self-Efficacy and In-class Relationships

   https://doi.org/10.1007/s10956-023-10078-5  

   Dunbar-Wallis, Amy; Katcher, Jennifer; Moore, Wendy; Corwin, Lisa A. (October 2023, Journal of Science Education and Technology)

   Abstract The Bee the CURE is a novel course-based undergraduate research experience (CURE) that engages introductory biology students in DNA barcoding (DNA extraction, amplification, and bioinformatics) in partnership with the Tucson Bee Collaborative and the University of Arizona. The first iteration of this CURE taught at Pima Community College (PCC) occurred during the Fall 2020 semester in which the course was taught online and students focused on bioinformatics. Due to the online format, students were unable to participate directly in the wet-lab components (extraction and amplification) of the course. These were approximated with videos of the instructor performing the tasks. A qualitative case study of this semester built from student interviews found that students were able to form positive relationships with instructors and peer mentors but that the online format of the class posed some challenges to relationship formation. Students reported developing self-efficacy in bioinformatics skills while online lab participation disrupted student’s gaining “hands-on experiences” and seldom led to development of science self-efficacy in wet lab skills. Our findings from a study of a synchronous online CURE allowed us to characterize a context in which online learning posed a challenge and perhaps even a threat to research self-efficacy, especially regarding skill development and self-efficacy in “hands-on” areas, such as wet-bench research skills. Yet optimistically, our study highlights the potential of online community college learning environments to provide mastery experiences in online science contexts (e.g., bioinformatics) and opportunities for relationship building. 

   more » « less
4. Exploring How Culture Matters in Building Responsive and Humanizing Contexts for Community College Students Pursuing STEM

   https://doi.org/10.3390/educsci14090956  

   Anderson, Brenda Lee; Deil-Amen, Regina (September 2024, Education Sciences)

   While the vertical transfer process and culturally responsive approaches to education have been studied extensively, few scholars have addressed these two areas of concern simultaneously, particularly within higher education contexts. This study explores what cultural responsiveness means and how it matters for low-income community college (CC) students aspiring toward STEM careers and transferring to STEM majors at a local university. As part of a bridge program, students received two STEM faculty mentors, one faculty mentor from the community college and the other from the local university, beginning in their last year of enrollment at the community college. Each STEM mentor was trained in culturally responsive mentoring, and their mentorship extended post-transfer. Students participated in focus groups to share their experiences. The findings reveal that specific aspects of the community college students’ identities, primarily their race and language, were relevant as aspects of culture that mattered for their STEM aspirations. The findings also show that cultural responsiveness in mentoring and support outside the classroom are important steps toward humanizing STEM spaces, but they are wholly insufficient when not paired with extensive culturally responsive efforts in STEM teaching and within the curriculum to improve the internal classroom climate for those with racialized identities. 

   more » « less
5. Supporting First-Generation Refugee Families’ STEM Aspirations and College Navigation

   Judson, E; Ibrahim, M (March 2024, NARST)

   The challenges faced by first-generation students, particularly within refugee communities, can be formidable as they aspire to attend an American university and pursue a professional career. These challenges include uncertainties in navigating the path from high school to college, limited awareness of various STEM career fields, and a lack of acquaintances who have successfully navigated similar paths. Complexities such as high school graduation and university admission requirements, coupled with few higher education connections, contribute to the frustrations experienced by parents and students. To address these issues, we present the results of a project aimed at promoting STEM aspirations, and enhancing the understanding of college navigation among refugee families residing in the United States. The project focused on parents and their children in grades 7-12 and was a collaboration between a large public university and leaders of several ethnic community-based organizations (ECBOs) representing local Burundian, Congolese, and Syrian communities. Results indicate the project positively affected students and parents’ STEM capital and college social capital, as well as students’ expectations regarding how fulfilling a STEM career might be. 

   more » « less