Nanogenerators are useful for energy harvesting as they are able to convert mechanical energy into electrical energy. This energy can then be used for a variety of applications, including powering a variety of electronic devices. Furthermore, nanogenerators have the potential to reduce our reliance on traditional energy sources, such as fossil fuels, which can have a positive impact on health, the environment, and the economy. Nanogenerators can be used to reduce air pollution and improve public health. By providing an alternative energy source, nanogenerators can reduce the amount of air pollution created by burning fossil fuels. This can help reduce the health risks associated with air pollution, such as respiratory illnesses, heart disease, and cancer. Nanogenerators can also have a positive effect on the environment. By providing a renewable energy source, nanogenerators can help reduce the amount of greenhouse gases emitted into the atmosphere, which is essential for the preservation of our environment. Additionally, nanogenerators can help reduce the amount of waste generated by traditional energy sources, such as batteries, which can help reduce the amount of waste in landfills. Finally, nanogenerators can have a positive effect on the economy. By providing an alternative energy source, nanogenerators can help reduce the cost of energy, which can help reduce the cost of living for consumers. Additionally, the availability of an alternative energy source can help create jobs in the renewable energy sector, which can help to stimulate economic growth.

Thus, we are interested in the collective environmental and economical alternative energy sources to up bring the society. Nanogenerators, energy harvesting in the mini, micro scale are important aspects of the scientific study nowadays.

For this we are welcoming the knowledge, ideas, research articles, review articles, and short notes in the field.

We eagerly await your contributions.

Piezoelectric Nanogenerators; Triboelectric Nanogenerator; Flexible Nanogenerators; Self-Powered Nanogenerators; Nanoenergy Harvesting; Nanoscale Energy Conversion; Nanomaterials for Energy Harvesting; Microscale Energy Harvesting; Energy Harvesting Circuits; Renewable Energy Sources