Are photovoltaic energy conversion and storage integrated micro-supercapacitors asymmetric and flexible?

Here we report photovoltaic energy conversion and storage integrated micro-supercapacitors (MSCs) with asymmetric, flexible, and all-solid-state performances constructed from thousands of close-packed upconverting nanoparticles (UCNPs) via an emulsion-based self-assembly process using oleic acid (OA)-capped upconverting nanoparticles.

How can solar energy harvesting and storage be integrated?

Under solar radiation (100 mW cm −2), the coupling process of photoelectron excitation and electrochemistry enhances the storage efficiency and power density of the integrated system. Thereby, high-efficiency integration of light energy harvesting and storage could be realized.

What are the limitations of solar photovoltaic conversion technology?

Among these, solar photovoltaic conversion technology, i.e., from light to electric energy, is an important way to realize green and renewable energy power generation. However, one of the limitations of solar cells is the low efficiency of photoelectric conversion.

Why are silicon carbide semiconductors important for solar power generation?

Latest generation silicon carbide semiconductors enable a significant increase in power conversion efficiency in solar power generation systems and associated energy storage.

Should solar cells be connected to energy storage devices?

Currently, solar cells are considered as the individual devices for energy conversion, while a series connection with an energy storage device would largely undermine the energy utilization efficiency and peak power output of the entire system.

How efficient is a photoelectric conversion–storage system?

In this integrated system, an overall photoelectric conversion–storage efficiency of 7.3% along with light charging cycle performance (30 cycles) was achieved.