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UFS on track to revolutionise student success and boost sustainability

14 August 2025 | Story Onthatile Tikoe and the Centre for Teaching and Learning | Photo Supplied

CTL — From the left: Dr Jenny Glennie (SAIDE), Gugu Khanye (Director: Student Success – UFS), Prof Matete Madiba (Deputy Vice-Chancellor – UWC), Prof Francois Strydom (UFS Siyaphumelela Lead), and Prof Nthabiseng Ogude (Siyaphumelela Institutional Coach) at the 2025 Siyaphumelela Conference. The group played a key role in advancing conversations around student success, collaboration, and innovation in higher education.

The University of the Free State (UFS) is advancing a transformative approach to student success that positions it to become a national leader in enhancing social mobility. This vision was underscored at the 2025 Siyaphumelela Conference, where the university shared details of its groundbreaking collaboration with the National Institute for Student Success (NISS) at Georgia State University (GSU) in the United States.

Prof Francois Strydom, Senior Director: Centre for Teaching and Learning (CTL), explained that the initiative builds on lessons from GSU’s remarkable achievements. “The success of Georgia State University has been truly inspiring,” he said. “The NISS approach, which focuses on using data to dismantle systemic barriers and improve graduation rates, has transformed outcomes for a predominantly low-income and diverse student body. By contextualising this data-driven model for our environment, the UFS is proud to be the first university on the African continent to implement it.”

Building on proven success

GSU’s success in eliminating equity gaps in retention and completion among different racial groups was achieved through a redesign of its support structures and processes. Drawing on its own established track record of narrowing equity gaps in success rates, the UFS aims to replicate these outcomes in a way that is tailored to its unique context.

At the conference, the UFS Centre for Teaching and Learning (CTL) launched a new national report on student engagement trends and presented papers on a range of topics. These included innovative strategies for improving performance in high-priority modules, the use of predictive analytics to provide proactive student support, and research into gender differences in academic performance and class attendance in a post-COVID world.

Prof Strydom also led an exploratory panel discussion on strengthening collaboration between universities, business, and philanthropy to drive large-scale student success initiatives. “By facilitating a deeper understanding between philanthropic organisations, businesses, and universities, we can develop innovative and impactful approaches to funding and student support,” he said.

Driving innovation and sustainability

The UFS’ contributions at the conference were further reinforced by institutional projects focused on the evidence-based integration of artificial intelligence (AI) into student learning and success. These initiatives reflect a clear commitment to transformation that is both research-led and data-driven.

Looking ahead, Prof Strydom emphasised the opportunity before the institution: “We have a unique opportunity to leverage the lessons learnt from our student success initiatives to guide further research, deploy technology in ways that optimise human connection, and help create responsible societal futures while contributing to the sustainability of our university.”

News Archive

Chemistry gets substantial grants

2013-06-10

At the experimental setup of the high temperature reduction oven for research in heterogeneous catalysis are, front from left: Maretha Serdyn (MNS Cluster prestige PhD bursar), Nceba Magqi (Sasol employee busy with his MSc in Chemistry) and Dr Alice Brink (Formal MNS Cluster postdoctoral fellow and lecturer in Inorganic Chemistry); back Profs Jannie Swarts (Head: Physical Chemistry), André Roodt, and Ben Bezuidenhoudt (Sasol Professor in Organic and Process Chemistry).
10 June 2013

Three research groups in the Department of Chemistry received substantial grants to the value of R4,55 million. The funding includes bursaries for students and post-doctoral fellows, mobility grants, running costs and equipment support, as well as dedicated funds for two young scientists in the UFS Prestige Scholar Programme, Drs Lizette Erasmus and Alice Brink.

The funding comes from Sasol, the THRIP programme of the National Research Foundation (NRF) and PetLabs Pharmaceuticals for the overarching thrust in Organic Synthesis, Homogeneous and Heterogeneous Catalysis. The programme has a broad focuse on different fundamental and applied aspects of process chemistry. Research groups of Profs Andreas Roodt (Inorganic), Jannie Swarts (Physical) and Ben Bezuidenhoudt (Organic / Process), principal members of the focus area of (Green) Petrochemicals in the Materials and Nanosciences Strategic Research Cluster (MNS Cluster) will benefit from the grant.

This funding was granted based on the continued and high-level outputs by the groups, which resulted in more than 40 papers featuring in international chemistry publications in merely the past year. A few papers also appeared in the top experimental inorganic chemistry journal from the American Chemical Society, Inorganic Chemistry. These high-impact papers address important issues in catalysis under the UFS Material and Nanosciences Research Cluster initiative, as well as other aspects of fundamental chemistry, but with an applied approach and focus.

Prof Andreas Roodt, Distinguished Professor and Chairperson of the Department of Chemistry, said the grants will enable the three research groups to move forward in their respective research areas associated with petrochemicals and other projects, and enable additional students in the department to benefit from it. It will also ensure that these groups can continue and maintain their research on different molecular and nano-scale materials. Current experiments include conversions under extremely high gas pressures (typical 100 times that in motor car tyres). This takes place at the molecular level and at preselected nano-surfaces, to convert cheaper feed-stream starting materials into higher value-added products for use as special additives in gasoline and other speciality chemicals.

The funding support forms part of the Hub-and-Spoke initiative at Sasol under which certain universities and specifically the UFS Department of Chemistry have been identified for strategic support for research and development. The department and the UFS gratefully acknowledge this continued and generous support from all parties concerned.

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