Heat transport at a Fermi-gas/Fermi-liquid (FG/FL) interface is investigate
d on the basis of a simplified model of a semiconductor-metal interface. Th
e results indicate that the Peltier heat-pumping rate can be increased due
to the additional heat exchange at the FG/FL interface associated with the
electron phase transition between the Fermi gas and Fermi liquid. The elect
ronic latent energy is defined as a measure of the energy absorption or emi
ssion accompanying a phase transition. It is proposed that a thermoelectric
system which incorporates FG/FL interfaces may exhibit a higher thermoelec
tric efficiency than that of a conventional thermoelectric system.