Researchers uncover way to study ‘hot electrons’ — a step toward more efficient solar

Purdue hot electrons research

Highly energetic, “hot” electrons have the potential to help solar panels more efficiently harvest light energy, but scientists haven’t been able to measure the energies of those electrons, limiting their use. Until now! Researchers at Purdue University and the University of Michigan have built a way to analyze them.

“There have been many theoretical models of hot electrons but no direct experiments or measurements of what they look like,” said Vladimir “Vlad” Shalaev (shal-AYV), Purdue University’s Bob and Anne Burnett Distinguished Professor of Electrical and Computer Engineering, who led the Purdue team in this collaborative work.

In a paper published in the journal Science on June 4, the researchers demonstrated how a technique using a scanning tunneling microscope integrated with lasers and other optical components reveals the energy distribution of hot electrons.

“Measuring energy distribution means quantifying how many electrons are available at a certain amount of energy. That crucial piece of information was lacking for expanding the use of hot electrons,” said Harsha Reddy, a Ph.D. student in Purdue’s School of Electrical and Computer Engineering and an equally contributing lead author on this paper.

The nerdy details

Hot electrons are typically generated through shining a certain frequency of light on a carefully engineered nanostructure made of metals such as gold or silver, exciting so-called “surface plasmons.” These plasmons are believed to eventually lose some of their energy to electrons, thus, making them hot.

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While hot electrons can have temperatures as high as 2,000 degrees Fahrenheit, it’s their high energy – rather than the material temperature – that makes them useful for energy technologies.

In solar panels, energies from hot electrons could be more efficiently converted to electrical energy compared to conventional approaches. Hot electrons also could improve the efficiency of energy technology such as hydrogen-based fuel cells in cars by speeding up chemical reactions.

“In a typical chemical reaction, the reactants need to have enough energy to cross a threshold for completing the reaction. If you have these high-energy electrons, some of the electrons would lose their energy to the reactants and push them across that threshold, making the chemical reaction faster,” Reddy said.

Research background

Reddy worked with Kun Wang, a postdoctoral researcher in a University of Michigan group under professors Edgar Meyhofer and Pramod Reddy, who co-led the research effort. Together, they spent more than 18 months developing the experimental setup and another 12 months measuring the hot electron energies.

The researchers built a system that allowed them to detect the difference in charge currents generated with and without exciting the plasmons. This difference in currents contains the crucial information needed to determine the energy distribution of the hot electrons in the metallic nanostructure.

Shining a laser light onto a gold film with tiny ridges excites plasmons in the system, generating hot electrons. The researchers measured the energies of the electrons by drawing them through carefully engineered molecules into a gold electrode at the tip of a scanning tunneling microscope. Researchers at the University of Liverpool synthesized some of the molecules for these experiments.

This method could be used for enhancing a wide range of energy-related applications.

“This multidisciplinary basic research effort sheds light on a unique way to measure the energy of charge carriers. These results are expected to play a crucial role in developing future applications in energy conversion, photocatalysis and photodetectors, for instance, that are of great interest to the Department of Defense,” said Chakrapani Varanasi, a program manager for the Army Research Office, which supported this study.

The work also was supported by the U.S. Department of Energy, the U.S. Office of Naval Research, and the Air Force Office of Scientific Research.

— Solar Builder magazine

[source: https://solarbuildermag.com/news/researchers-uncover-way-to-study-hot-electrons-a-step-toward-more-efficient-solar/]


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