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12 February 2019 | Story Rulanzen Martin | Photo Rulanzen Martin
Prof Angelique van Niekerk and CP Naude
Charl-Pierre Naudé with Prof Angelique van Niekerk after launch and discussion of his book.

Die Ongelooflike Onskuld van Dirkie Verwey is the debut novel by Charl-Pierre Naudé, research fellow in the Department of Afrikaans and Dutch, German and French at the University of the Free State (UFS).

Naudé has published four volumes of poetry and is a poet by profession. Die Ongelooflike Onskuld van Dirkie Verwey is his first leap from poetry to prose. He is also a former winner of the Ingrid Jonker Prize for poetry.

The book, published by Tafelberg, was launched on the UFS Bloemfontein Campus on Thursday 30 January 2019 where Naudé was in conversation with Dr Francois Smit, also from the Department of Afrikaans and Dutch, German and French, during which the two of them attempted to analyse the world of the main characters; however, Naudé did not want to give away too much. ”I think people should read the book,” he said.

Spiritual and physical worlds

 

“The novel is a first-person narrative told by one of the characters. I wanted to play a certain bluff to determine exactly who the author of this book was,” said Naudé. The book is not totally explicable. “I wanted the reader to feel that it is not absolutely true.”

''The book seeks to combine the spiritual and physical worlds,” said Naudé. Die Ongelooflike Onskuld van Dirkie Verwey is essentially a love story in which the two worlds merge, but nonetheless never mix.

 

Creative writing course revived

 

“The book is Charl-Pierre’s creative output which forms part of his creative writing course,” said Head of Department, Prof Angelique van Niekerk. This is the first book published after the revival of the creative writing course at the UFS in 2015 – and what a book to kick off with!

“It is of great importance for our department to have been part of this book,” Dr Smith said.

Read here the article published in Huisgenoot.

News Archive

Student excels at international level with research in Inorganic Chemistry
2015-09-21


Carla Pretorius is currently conducting research in
Inorganic Chemistry at the St Petersburg University,
Russia.

Photo:Supplied

Carla Pretorius completed her PhD in Inorganic Chemistry recently, with a thesis entitled “Structural and Reactivity Study of Rhodium(I) Carbonyl Complexes as Model Nano Assemblies”, and has just received her results. The assessors were very impressed, and she will graduate at the next UFS Summer Graduation in December 2015.

She is currently conducting research in St Petersburg, Russia, by invitation. She is working in the group of Prof Vadim Kukushkin of the St Petersburg University, under a bilateral collaboration agreement between the groups of Prof Kukuskin (SPBU) and Prof André Roodt (Head of the Department of Chemistry at the UFS).

Her research involves the intermetallic rhodium-rhodium interactions for the formation of nano-wires and -plates, with applications in the micro-electronics industry, and potentially for harvesting sun energy. She was one of only three young South African scientists invited to attend the workshop “Hot Topics in Contemporary Crystallography” in Split in Croatia during 2014. More recently, she received the prize for best student poster presentation at the international symposium, Indaba 8 in Skukuza in the Kruger National Park, which was judged by an international panel.

Carla was also one of the few international PhD students invited to present a lecture at the 29th European Crystallographic Meeting (ECM29) in Rovinj, Croatia (23-28 August 2015; more than 1 000 delegates from 51 countries). As a result of this lecture, she has just received an invitation to start a collaborative project with a Polish research group at the European Synchrotron Research Facility (ESRF) in Grenoble, France.

According to Prof Roodt, the ESRF ID09B beam line is the only one of its kind in Europe designed for time-resolved Laue diffraction experiments. It has a time-resolution of up to one tenth of a nanosecond, after activation by a laser pulse 100 times shorter (one tenth of a nanosecond when compared to one second is the equivalent of one second compared to 300 years). The results from these experiments will broaden the knowledge on light-induced transformations of very short processes; for example, as in photochemical reactions associated with sun energy harvesting, and will assist in the development of better materials to capture these.

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