Patent attributes
Present invention discloses a microfluidic energy harvester for converting solar energy into electrical energy. A preferred embodiment of the present microfluidic energy harvester includes a substrate having an embedded central microchannel, electrolyte configured to reside and/or flow in said central microchannel and electrode assembly having one or more pair of electrodes arranged in a series and integrated with said central microchannel from sides ensuring direct contact between said pair for electrodes with said electrolyte while it reside and/or flow in said central microchannel for ensuing electrochemical photovoltaic effect to convert the solar energy into the electrical energy under direct solar illumination by working under regenerative conditions. The microfluidic energy harvester is capable of producing high density power from three different resources, (a) the solar irradiation produces a photovoltaic potential difference between the metal/metal-oxide electrodes, (b) SPR of the metal nanoparticles suspended in the electrolyte amplifies the photovoltaic potential difference under solar irradiation, and (c) the flow of the nanoparticle laden electrolyte produces a streaming potential between the electrodes by converting the mechanical energy into the electrical one near the electrodes. The transparency of the polymer and adequate absorptivity of the metal/metal-oxide electrodes ensured facile absorption of solar irradiation in the microfluidic energy harvester. The flexibility of the MEH can be tuned by adjusting the cross-linking of the PDMS matrix. The multiplicity of the microchannels and electrodes are expected to increase the total amount of energy harvested.
