Prof. Dr. Yan Lu: Developing new types of batteries sustainably
Since 2009, Yan Lu is a researcher at the Helmholtz-Zentrum Berlin. In 2017, she became a professor at the University of Potsdam and at HZB. In addition to her work at the HZB, she is now also a professor at the University of Jena. © M. Setzpfandt / HZB
Yan Lu is appointed new Professor of Hybrid Materials for Electrochemical Energy Storage and Conversion at Friedrich Schiller University Jena together with HZB. Congratulations!
“Conventional lithium-ion batteries are very powerful, but also expensive, as they require metals such as nickel and cobalt in addition to lithium,” says chemist Prof Dr Yan Lu. “That’s why I’m researching more sustainable alternatives, such as lithium-sulphur batteries and batteries based on hybrid materials,” explains the 47-year-old scientist, who is working at Friedrich Schiller University Jena since this semester. Her work combines various areas of expertise: In order to make energy available electrochemically, she combines organic and inorganic chemistry, for example, and also draws on research methods from biochemistry.
As part of her joint appointment with Helmholtz-Zentrum Berlin (HZB), where she continues to head the Institute for Electrochemical Energy Storage, the new professor is also co-director of the Helmholtz Institute for Polymers in Energy Applications Jena (HIPOLE Jena), which has been founded in 2023 in Jena by the university and HZB.
About Yan LuAfter studying chemistry in Shanghai, Yan Lu completed her doctorate at TU Dresden and then conducted research first in Bayreuth and from 2009 at the Helmholtz Centre Berlin. In 2017, she became a professor at the University of Potsdam and at HZB. In addition to her work at the Helmholtz Centre, she has also been Professor of Hybrid Materials for Electrochemical Energy Storage and Conversion at the University of Jena since the winter semester 2023/24.
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- KlarText Prize for Hanna TrzesniowskiThe chemist has been awarded the prestigious KlarText Prize for Science Communication by the Klaus Tschira Foundation.
- Shedding light on insulators: how light pulses unfreeze electronsMetal oxides are abundant in nature and central to technologies such as photocatalysis and photovoltaics. Yet, many suffer from poor electrical conduction, caused by strong repulsion between electrons in neighboring metal atoms. Researchers at HZB and partner institutions have shown that light pulses can temporarily weaken these repulsive forces, lowering the energy required for electrons mobility, inducing a metal-like behavior. This discovery offers a new way to manipulate material properties with light, with high potential to more efficient light-based devices.