Photosynthesis is biological process in which sunlight is used to prepare the nutrients for the plant with the help of the green pigment

Photosynthesis is biological process in which sunlight is used to prepare the nutrients for the plant with the help of the green pigment, i.e, chlorophyll. However, when the sun sets there is no way that plant can prepare their meal. It is now become a technology which mimics the photosynthesis the process is called artificial photosynthesis. Artificial photosynthesis is definitely worth exploring, it uses nano-sized light-sensitive materials will be converted to light energy, resulting in oxidoreductase reaction. In short, it is a useful technology that uses light energy to produce same chemicals as in natural process.
The energy from the sunlight converts into the chemical energy due to which it becomes more suitable for its storage. In this conversion side products are not yielded like the greenhouse gases. But, in the process carbon dioxide can be utilized in the same way as it does in plants. .
The chlorophyll present in leaves grasp sunlight, couple of enzymes and other proteins uses this light to split water molecules into hydrogen, electrons and oxygen (protons). Electrons and hydrogen are used to convert carbon dioxide into nutrients for the plant, and oxygen is transferred into the atmosphere.
For artificial photosynthesis there are 2 main steps- the ability to collect solar energy, and the ability to split water molecules.
Scientists first used a cobalt metal, phosphorus, and indium-tin oxide electrode placed in water to create a new catalytic device that relies on current generated by external sources of energy (such as solar energy, wind energy, etc.), A catalyst flowing through the electrode and consisting of cobalt and phosphoric acid, using the catalytic action of cobalt and phosphorus leads water to produce hydrogen and oxygen which are collected at both poles. The energy produced by the mixture of hydrogen and oxygen can be stored in proton exchange membrane fuel cells, enabling uninterrupted power supply both day and night. But splitting the water molecule is not so simple; it requires about two and a half electron volts of energy. Therefore, we need a catalyst that “pushes” the chemical reaction.

One of the problems associated with any efforts to create artificial photosynthesis is that the more steps you have in the process of conversion, the more energy will be lost along the way. The use of electrified appliances with energy generated directly from the sun will be much more effective than any scheme for converting electricity and carbon dioxide into fuel, which you will then burn to restore the proportion of electrical input.

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In addition, from an environmental and practical point of view, the construction of billions of artificial plants can be far less feasible than sowing seeds for several well-chosen biofuels. On the other hand, these plants often require good soil, which deteriorates rapidly due to agricultural pressure. Biofuels have already been suspected of using land that could feed a growing population. Plus artificial photosynthesis is that you can see how these “plants” thrive in the desert or even in the ocean.


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