Sefako Makgatho Health Sciences University (SMU) is rapidly emerging as a powerhouse of innovation in health sciences, with cutting-edge research that speaks directly to South Africa’s most urgent healthcare challenges. From advancing community health to widening access to essential services, SMU’s faculty and students are driving impactful solutions that resonate both locally and globally.

At the heart of this wave of discovery stands SMU graduate Dr Clinton Dlamini, a trailblazer in the realm of material science. His groundbreaking work on nanophosphors and photoluminescent materials—light-emitting powders with transformative potential—is not only breaking scientific ground but also illuminating a path for a new generation of African researchers. Dlamini’s journey from doctoral studies to becoming a respected voice in this specialised field underscores SMU’s role as a launchpad for research excellence with real-world relevance.

Dlamini’s fascination with the behaviour of materials at the atomic level began during his third year as an undergraduate in solid-state physics. “I was curious about how materials behave, how their internal structures influence their properties. Nanophosphors stood out to me because of their unique light-emitting capabilities and their vast potential in practical technologies,” he explains.

Focusing on zinc and calcium aluminates activated with rare earth ions, Dlamini identified a significant research gap. He aimed to explore how co-doping with ions like terbium (Tb³⁺) and samarium (Sm³⁺) could enhance the luminescent and structural properties of these materials. “These ions emit green and red light, respectively,” he notes. “Together, they allow for tunable luminescence, which is key in many applications.”

His research explored the use of the citrate sol-gel method to synthesise nanophosphors, with careful control over nanoscale features. By fine-tuning pH levels, temperature, and annealing conditions, Dlamini was able to produce materials with desirable properties. “One of the biggest challenges was achieving uniform dopant distribution while maintaining strong luminescence,” he recalls.

To ensure accuracy and reproducibility, Dlamini standardised his procedures, calibrated instruments regularly, and repeated experiments multiple times. His toolkit included a suite of characterisation techniques: X-ray diffraction (XRD), scanning electron microscopy (SEM), photoluminescence (PL) spectroscopy, and UV-NIR analysis. FTIR and TEM were also used for deeper structural insights.

Among his most exciting discoveries was the synergistic enhancement of luminescence through co-doping. “I was surprised by how much the annealing process could influence emission intensity and crystal structure,” he says. The co-doping not only improved light emission but also introduced novel structural behaviours, opening the door for further scientific exploration.

The potential applications of Dlamini’s research are impressive: from use in LED display technologies, anti-counterfeiting inks, and bio-imaging agents, to integration into radiation detection and even smart devices. “These materials could one day power wearable sensors or responsive lighting systems,” he suggests. He also sees strong potential in bio-imaging and possibly even quantum communication technologies, thanks to the tunable and stable emissions of his nanophosphors.

Asked what kept him going through the rigours of his PhD, Dlamini cites passion and people. “Support from my mentors and peers and celebrating small wins – like having a paper accepted – made the tough times manageable.” For early-career scientists, especially in resource-limited environments, his advice is clear: “Master the fundamentals and don’t underestimate the value of curiosity and consistency. Innovation doesn’t always need expensive tools.”

Looking ahead, Dlamini plans to pursue postdoctoral research and eventually lead his own research group focused on functional nanomaterials. He hopes to expand his current work into hybrid materials and photonic device integration. To young African scientists, his message is one of empowerment: “You have a unique perspective and potential. The world needs your contribution. Start where you are and keep going.” Summing up his PhD journey in a single phrase, Dlamini offers: “Turning light into knowledge – one nanoparticle at a time.” It’s a fitting reflection of both the precision of his science and the brilliance of his vision.

By Tumelo Moila