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Researchers discover multilayer band gap in atomic rhenium disulfide layers.

Korean researchers at DGIST proved the existence of upper band gap of atomic rhenium disulfide (ReS2) layers in the conductive atomic structure of ionization energy, through the joint research with Professor Jong-hyun Ahn's research team at Yonsei University (Light: Science & Applications, "Probing the upper band gap of atomic rhenium disulfide layers").

Even the academia has only theoretically predicted the ionization energy area of 2D atomic structures and has had difficulties in proving the actual existence of structure.

However, Professor Hyunmin Kim's research team at DGIST could observe the actual structure using 'time-resolved second harmonic generation (TSHG) imaging system' it developed, proving the existence of disulfide band gap layers.



Credit: CC0 Public Domain


The 'time-resolved second harmonic generation imaging system' can generate the images of the sounds of atomic-layered structure in 300nm of high-resolution, playing a critical role in making the research successful.

This system increased the sensitivity of measuring the dispersion effects of layer noise and observed electron movements inside transition bands, which are visible rays and near-ultraviolet rays using the probing energy of infrared bandwidth.

Dr. Kim said "Through this research, we will be able to clarify the structure of multilayer band gaps existing in various atopic structures besides the rhenium disulfide that was observed this time. It provided important elements to analyze the unidentified causes of electronic activities which contribute to driving the optical sensors and photocatalysts of various 2D structures. In the future, I hope to develop a device that operates both optically and electrically by a new band gap.

In addition, Professor Lee, who calculated the theories of research, said "We could observe multi-layer bandgaps in this research, which will greatly help with related researches such as observing band gaps of junction structures and improving device agglomeration in the future."

DGIST (Daegu Gyeongbuk Institute of Science and Technology). Posted: Jan 07, 2019.



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