Light–emitting diodes based on asymmetrical double InAs/InAsSb/InAsSbP heterostructure for CO$_{2}$ ($\lambda$ = 4.3 $\mu$m) and CO ($\lambda$ = 4.7 $\mu$m) detection

Asymmetrical double InAs/InAsSb/InAsSbP heterostructures are grown by metalorganic vapor phase epitaxy. Two types (A and B) of light-emitting diodes with wavelengths of 4.1 and 4.7 $\mu$m at the emission-spectrum maximum are formed from these heterostructures. The room-temperature I–V and electroluminescence characteristics of the light-emitting diodes are investigated. The emission powers of light-emitting diodes A and B in the quasi-continuous mode (at a frequency of 512 Hz) at a current of 250 mA are 24 and 15 $\mu$W, respectively. In the pulsed mode (at a frequency of 512 Hz and a pulse length of 1 $\mu$s), the emission powers of light-emitting diodes A and B at a current of 2.1 A reach 158 and 76 $\mu$W, respectively. The developed light-emitting diodes can be used as high-efficiency emission sources in optical absorption sensors for detecting carbon dioxide and monoxide gases in the atmosphere.