Thermophotovoltaic cells can make energy production more effective.

"Researchers are exploring thermophotovoltaic systems that generate electricity from heat, highlighting their potential in sustainable energy." (ScitechDaily, Harnessing Heat for Clean Energy: The Future of Thermophotovoltaic Technology)

"Researchers are advancing thermophotovoltaic (TPV) systems, which convert heat into electricity using photovoltaic cells, presenting a silent and low-maintenance energy solution." (ScitechDaily, Harnessing Heat for Clean Energy: The Future of Thermophotovoltaic Technology)

Thermophotovoltaic cells allow to use of laser beams to transport electricity to drones and other electric components. Thermophotovoltaic cells are applications that can increase the energy efficiency of the engines and electric supply systems.  

Thermophotovoltaic cells convert heat to electricity. Those systems can operate independently. 

Thermophotovoltaic cells can operate with regular energy sources using their heat to make electricity.  

They can harness energy from boiling water from the water supply system. And the small robots. Observe the system conditions can use those tools for energy supply. 

The thermoelectric photovoltaic technology can collect energy from the engine of the hybrid cars. That system can harness energy from the combustion engine's heat. And it can boost the engine efficiency. It also loads batteries faster. 

The fact is that thermophotovoltaic technology can increase the energy efficiency of all power plants. Engineers can use this kind of system to make new points where they collect energy. And if thermophotovoltaic cells can someday turn to large-scale use those systems can harness energy from geothermal holes. 

Also, dark layers can give energy to thermophotovoltaic cells.  That can used together with regular solar panels. The thermophotovoltaic cells can collect energy from blast furnaces which decreases the need to buy electricity.  

Thermophotovoltaic cells can also be used in next-generation Venus landers. Those systems can also give energy to robots that operate in high-temperature environments. There are many potential useful things for that technology. The ability to turn heat or IR radiation into electricity can be useful in military applications that require low-observable energy sources that don't operate in radio frequency. 

That means. The IR-laser system can deliver electricity to small drones or other electric equipment. Those drones can operate in caves and places where they cannot land. The ability to use laser beams to load electricity to the small quadcopters is one of the most fundamental ideas in robotics. Those lasers can also be used to transport information to drones. The system can have multiple useful applications. From the scientific to the military world. 

https://scitechdaily.com/harnessing-heat-for-clean-energy-the-future-of-thermophotovoltaic-technology/