Keywords
Scientific research team construction
Collaborative management mechanism
Diversified talent training
Educational model exploration
Submitted : 2024-11-30
Accepted : 2024-12-15
Published : 2024-12-30
Abstract
This study is dedicated to exploring the role of scientific research team construction and collaborative management mechanisms in applied undergraduate universities in promoting diversified talent training and collaborative innovation models. By forming an interdisciplinary scientific research team and recording in detail the team’s performance, problems encountered, and solutions during the collaborative innovation process, the study found that interdisciplinary team construction significantly improved scientific research timeliness, which was 29.33% higher than that of traditional single-disciplinary teams. Therefore, the construction of interdisciplinary scientific research teams and collaborative management mechanisms are effective ways for applied undergraduate universities to promote diversified talent training and collaborative innovation.
References
Tang L, Ke Z, Zhang Y, 2024, Research on the Construction of the “7S” Student Management Model of Light Chemical Engineering Major from the Perspective of Collaborative Education. Paper Science and Technology, 43(08): 164–168.
Chen M, 2024, Exploration of the Cross-Border Integration Path of University Experimental Management under the Background of “Double Innovation” Education. Fujian Light Industry, (10): 93–95.
Ahmad Z, Al-Thani NJ, 2022, Undergraduate Research Experience Models: A Systematic Review of the Literature from 2011 to 2021. International Journal of Educational Research, 114(1): 101996–102001.
Adebisi YA, 2022, Undergraduate Students’ Involvement in Research: Values, Benefits, Barriers and Recommendations. Annals of Medicine and Surgery, 81(1): 104384–104391.
Leonetti CT, Lindberg H, Schwake DO, et al., 2023, A Call to Assess the Impacts of Course-Based Undergraduate Research Experiences for Career and Technical Education, Allied Health, and Underrepresented Students at Community Colleges. CBE—Life Sciences Education, 22(1): 4–5.
Plass KE, Krebs JK, Morford JL, et al., 2024, Nanomaterials Research at a Primarily Undergraduate Institution: Transforming Nanorods, Undergraduate Research Communities, and Infrastructure. ACS Nanoscience Au, 4(4): 223–234.
Ruth A, Brewis A, Sturtz Sreetharan C, 2023, Effectiveness of Social Science Research Opportunities: A Study of Course-Based Undergraduate Research Experiences (CUREs). Teaching in Higher Education, 28(7): 1484–1502.
Brazendale K, Rovito M, Garcia J, 2024, Changing Attitudes towards Research through a Course-Based Undergraduate Research Experience. Journal of the Scholarship of Teaching and Learning, 24(2): 66–78.
Quan J, 2024, Current Situation and Practical Path of the School-Enterprise Cooperation Education Mechanism in Higher Vocational Colleges under the Background of Smart Education. Hebei Vocational Education, 8(03): 40–43.
Wang N, 2024, Research on the Collaborative Management Mechanism of “Double-Zone Coordination and Three-Dimensional Education” in Higher Vocational Colleges. Economist, (09): 205–206.