Since the beginning of time, this year has been one of the most significant years for solar energy. The coal museum in Kentucky is going to use solar panels to power itself, and the first solar station that will deliver 48.5 megawatts of solar power is going to be built in Australia. Google has launched an app that allows you to judge the solar capacity of an entire city or just your home with just a few clicks. Both of these developments are ironic. These are all very minor moral triumphs for a sector, but they also shed light on a pattern that has been developing. Over the last several years, solar technology has seen considerable advancements, and the ratio of cost to production has been changed in a positive direction. This is a positive indication for all of us, since it indicates that people and businesses are beginning to see the long-term advantages of solar powered energy. For the purpose of commemorating this prosperous year for solar energy, I would like to take a look at a few locations that are leading the way. India’s Kamuthi region As the sun is the origin of all energy, it is imperative that the world transition to solar power, which is the power of our future. Narendra Modi, the Prime Minister of India An installation of solar electricity has been constructed at Kamuthi, Tamil Nadu, and it is now the biggest plant of its kind in the whole globe. Through the use of more than 2 million individual solar modules, this facility is capable of producing 648 megawatts of power. In spite of the fact that India has more than 300 sunny days annually, the country has been hesitant to embrace solar power and capitalize on its potential. In the last several years, the administration has made all of those changes. The goal for March 2017 was to create 10,500 mw of solar power, however they were only able to achieve 8727.62 mw of solar generation in October. Given the current trajectory, India has the potential to become a frontrunner in the use of solar energy for such a huge population. Instead of relying on a centralized grid, India is contemplating making significant investments in a number of tiny solar units that are run independently. It is possible that empowering local communities might be the solution to the problem of a significant portion of the nation still not having access to a stable supply of electricity. It is possible that commercial solar systems will be promoted in order to assist regions that are able to afford them in their efforts to beat the government to the punch. In India, solar energy has been used in a variety of places, including the Delhi Metro, Indian Railways, toll plazas, farms, and even a blood bank. Not only has the construction of the Manildra Solar Farm in New South Wales, Australia, been completed, but researchers at RMIT University have also discovered a new form of electrode. This is a significant development for Australia. More than 120,000 megawatt hours (mwh) of power are anticipated to be generated by the plant in the first year that it is operational, according to estimates. The solar films have the potential to increase the capacity of solar storage by more than three thousand percent! Storage has been the Achilles heel of many different sorts of solar energy for a very long time, but Australia may very well have rendered this issue a thing of the past. The natural design of certain leaves found in nature served as inspiration for the development of this innovative electrode, which is meant to function in conjunction with supercapacitors. An increase in storage capacity that is more than thirty times the current level may indicate that a whole new bridge has been gapped in the fight to transition the globe to renewable energy sources. It is reasonable to anticipate the emergence of a new age of empowered persons once commercial solar systems begin to make use of such gadgets.