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Inorganic semiconductors such as silicon are indispensable in modern electronics because they possess tunable electrical conductivity between that of a metal and that of an insulator. The electrical conductivity of a semiconductor is controlled by its band gap, which is the energy difference between its valence and conduction bands; a narrow band gap results in increased conductivity because it is easier for an electron to move from the valence to the conduction band. However, inorganic semiconductors are brittle, which can lead to device failure and limits their application range, particularly in flexible electronics.
A group at Nagoya University recently discovered that an inorganic semiconductor behaved differently in the dark compared with in the light. They found that crystals of zinc sulfide (ZnS), a representative inorganic semiconductor, were brittle when exposed to light but flexible when kept in the dark at room temperature. The findings were published in Science.
Influence - Darkness - Properties - Semiconductors - Atsutomo
"The influence of complete darkness on the mechanical properties of inorganic semiconductors had not previously been investigated," study co-author Atsutomo Nakamura says. "We found that ZnS crystals in complete darkness displayed much higher plasticity than those under light exposure."
The ZnS crystals in the dark deformed plastically without fracture until a large strain of 45%. The team attributed the increased...
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