The Impact of the COVID-19 Pandemic on the Career Preparedness of Chemistry Graduates

Abhishek Ladwa, Dylan P. Williams, Richard A. R. Blackburn


Recent research has established that the COVID-19 pandemic has resulted in a shift in University student expectations of their graduate prospects due to unavoidable changes in their learning experiences during the pandemic, as well as the decrease in number of available jobs because of the economic impact of measures put in place to reduce COVID-19 transmission. This study used a survey to investigate: (a) the impact of the pandemic on student destinations six months after graduation and (b) the variations in perceptions of personal level of career preparedness between pre-pandemic graduates and graduates at different stages of the pandemic (i.e. the graduating classes of 2020 and 2021). 40 University of Leicester chemistry graduates engaged with the survey and analysis of the data revealed a non-statistically significant negative impact on employment six-months after graduation that appears to only affect graduates in 2020. The data also suggests that increased experience of the blended learning approaches adopted at the University of Leicester during the pandemic studies may better prepare graduates for remote working practices (e.g. using remote video conferencing software).


Employability; Careers; Transferable Skills; Chemistry; COVID-19

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Agasisti, T. & Soncin, M. (2021). Higher education in troubled times: on the impact of Covid-19 in Italy. Studies in Higher Education, 46(1), 86-95.

Appleby, J. A., King, N., Saunders, K. E., Bast, A., Rivera, D., Byun, J., Cunningham, S., Khera, C. & Duffy, A. C. (2022). Impact of the COVID-19 pandemic on the experience and mental health of university students studying in Canada and the UK: a cross-sectional study. BMJ Open, 12(1), e050187.

Arthur, R. (2021). Studying the UK job market during the COVID-19 crisis with online job ads. PLoS ONE 16(5: e0251431).

Baloran, E. T. (2020). Knowledge, Attitudes, Anxiety, and Coping Strategies of Students during COVID-19 Pandemic. Journal of Loss and Trauma, 25(8), 635-642.

Blackburn, R. A. R. (2018). Write My Next Lecture: Prelecture Problem Classes and In-Lecture Discussion to Assist Case-Study Teaching of Synthesis. Journal of Chemical Education, 95(1), 104-107.

Blackburn, R. A. R., Villa-Marcos, B. & Williams, D. P. (2019). Preparing Students for Practical Sessions Using Laboratory Simulation Software. Journal of Chemical Education, 96(1), 153-158.

Carr, R. M., Lane-Fall, M. B., South, E., Brady, D., Momplaisir, F., Guerra, C. E., Montoya-Williams, D., Dalembert, G., Lavizzo-Mourey, R. & Hamilton, R. (2021). Academic careers and the COVID-19 pandemic: Reversing the tide. Science Translational Medicine, 13(584), eabe7189.

Davis, J., Wolff, H.-G., Forret, M. L. & Sullivan, S. E. (2020). Networking via LinkedIn: An examination of usage and career benefits. Journal of Vocational Behavior, 118, 103396.

Deryugina, T., Shurchkov, O. & Stearns, J. (2021). COVID-19 Disruptions Disproportionately Affect Female Academics. AEA Papers and Proceedings, 111, 164-168.

Desrochers, M., Naybor, D. & Kelting, D. (2020). Perceived Impact of COVID-19 and Other Factors on STEM Students’ Career Development. Journal of Research in STEM Education, 6(2), 138-157.

Erlam, G. D., Garrett, N., Gasteiger, N., Lau, K., Hoare, K., Agarwal, S. & Haxell, A. (2021). What Really Matters: Experiences of Emergency Remote Teaching in University Teaching and Learning During the COVID-19 Pandemic [Original Research]. Frontiers in Education, 6.

Farnell, T., Skledar Matijević, A., Šćukanec Schmidt, N. E. C., Directorate-General for Education, Y., Sport, & Culture. (2021). The impact of COVID-19 on higher education: a review of emerging evidence: analytical report. Publications Office.

Garrison, D. R. & Kanuka, H. (2004). Blended learning: Uncovering its transformative potential in higher education. The Internet and Higher Education, 7(2), 95-105.

George-Williams, S. R., Blackburn, R. A. R., Wilkinson, S. M. & Williams, D. P. (2022). Prelaboratory Technique-Based Simulations: Exploring Student Perceptions of Their Impact on In-Class Ability, Preparedness, and Emotional State. Journal of Chemical Education, 99(3), 1383-1391.

Haelermans C, K. R., Jacobs M, de Leeuw S, Vermeulen S, van Vugt L, Aarts, B, Prokic-Breuer, T, van der Velden, R, van Wetten, S, de Wolf, I. (2022). Sharp increase in inequality in education in times of the COVID-19-pandemic. PLoS ONE, 17(2: e0261114).

Leal Filho, W., Wall, T., Rayman-Bacchus, L., Mifsud, M., Pritchard, D. J., Lovren, V. O., Farinha, C., Petrovic, D. S. & Balogun, A.-L. (2021). Impacts of COVID-19 and social isolation on academic staff and students at universities: a cross-sectional study. BMC Public Health, 21(1), 1213.

Mahdy, M. A. A. (2020). The Impact of COVID-19 Pandemic on the Academic Performance of Veterinary Medical Students [Original Research]. Frontiers in Veterinary Science, 7.

Mali, D. & Lim, H. (2021). How do students perceive face-to-face/blended learning as a result of the Covid-19 pandemic? The International Journal of Management Education, 19(3), 100552.

Miani, P., Kille, T., Lee, S.-Y., Zhang, Y. & Bates, P. R. (2021). The impact of the COVID-19 pandemic on current tertiary aviation education and future careers: Students’ perspective. Journal of Air Transport Management, 94, 102081.

Myers, K. R., Tham, W. Y., Yin, Y., Cohodes, N., Thursby, J. G., Thursby, M. C., Schiffer, P., Walsh, J. T., Lakhani, K. R. & Wang, D. (2020). Unequal effects of the COVID-19 pandemic on scientists. Nature Human Behaviour, 4(9), 880-883.

OECD. (2021). An Assessment of the Impact of COVID-19 on Job and Skills Demand Using Online Job Vacancy Data (OECD Policy Responses to Coronavirus (COVID-19), Issue.

Plakhotnik, M. S., Volkova, N. V., Jiang, C., Yahiaoui, D., Pheiffer, G., McKay, K., Newman, S. & Reißig-Thust, S. (2021). The Perceived Impact of COVID-19 on Student Well-Being and the Mediating Role of the University Support: Evidence from France, Germany, Russia, and the UK [Original Research]. Frontiers in Psychology, 12.

Pokhrel, S. & Chhetri, R. (2021). A Literature Review on Impact of COVID-19 Pandemic on Teaching and Learning. Higher Education for the Future, 8(1), 133-141.

Van Essen-Fishman, L. (2021). The impact of the Covid-19 pandemic on Graduate Outcomes 2018/19.

van Schalkwyk, F. (2021). Reflections on the public university sector and the covid-19 pandemic in South Africa. Studies in Higher Education, 46(1), 44-58.

Webb, A., McQuaid, R. W. & Webster, C. W. R. (2021). Moving learning online and the COVID-19 pandemic: a university response. World Journal of Science, Technology and Sustainable Development, 18(1), 1-19.

Williams, D. P. (2017). Learn on the Move: A Problem-Based Induction Activity for New University Chemistry Students. Journal of Chemical Education, 94(12), 1925-1928.

Williams, D. P. (2022). vPBL: Developing a Facilitated Remote Approach to Problem Based Learning. Journal of Chemical Education, 99(4), 1642-1650.

Williams, D. P., Woodward, J. R., Symons, S. L. & Davies, D. L. (2010). A Tiny Adventure: the introduction of problem-based learning in an undergraduate chemistry course. Chemistry Education Research and Practice, 11(1), 33-42.

Zawacki-Richter, O. (2021). The current state and impact of Covid-19 on digital higher education in Germany. Human Behavior and Emerging Technologies, 3(1), 218-226.


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