Wavelength-dependent bipolar photodetector speeds up switching

1st September 2016
Posted By : Daisy Stapley-Bunten

Researchers at Toyota Central R&D Labs describe the first all solid-state wavelength-dependent bipolar photodetectors with fast response times and tunable switching wavelengths. The findings are reported in Applied Physics Express.

“Optoelectronic sensors that can switch their photocurrent direction based on the wavelength of incident light are an important building block in novel optical logic gates, colour sensors, and photocatalysts,” explain Takashi Ikuno and Masaki Hasegawa at the Toyota Central R&D Labs in Japan in their latest report. However existing Wavelength-dependent Bipolar Photodetectors (WBPD) based on liquid electrolytes are too slow for future optoelectronic devices and logic gates. Ikuno and Hasegawa describe the first all solid-state WBPD, and not only demonstrate faster response times, but tunable switching wavelengths as well.

In existing devices two different materials with different optical properties are used to create wavelength-dependent photocurrents carried by an electrolyte. However the low carrier mobilities in liquid electrolytes makes the response times slow. Instead the Toyota researchers’ calculations show that if they use a semiconductor film with a band structure that increases or decreases at both the rear and front surfaces – giving the band structure a U or upside-down U shape - it will be capable of photocurrents with wavelength-dependent switching.

Their device exploits the wavelength-dependent penetration of photons in semiconductors. Shorter wavelengths are more readily absorbed than long, so shorter wavelengths will have a higher distribution of excited electrons near the front surface whereas at longer wavelengths the distribution is greater deeper into the material. Taking into account drift and diffusion processes, this causes photocurrents in opposite directions for short- and long- wavelength incident light. The thickness of the device affects the distribution of photoexcited carriers as a result of the wavelength-dependent absorption, allowing tunable switching wavelengths as well.

The researchers demonstrate their approach using a tungsten disulphide film, with front and rear ends modified by oxidation and sulphurization. The faster microsecond response gave the device “significant advantages over previously reported wavelength-dependent photodetectors using molecules and electrolytes.”

image


You must be logged in to comment

Write a comment

No comments




More from Japan Society of Applied Physics

Sign up to view our publications

Sign up

Sign up to view our downloads

Sign up

PPMA Show 2017
26th September 2017
United Kingdom NEC, Birmingham
World’s top 50 innovators from the industries of the future
27th September 2017
United Kingdom London
New Scientist Live 2017
28th September 2017
United Kingdom Excel, London
Kiosk Summit 2017
28th September 2017
United Kingdom London
act! 2017
28th September 2017
Germany NHOW Berlin