This Study Examines the Literature on the Usefulness of Nano-Photocatalysts In the Synthesis
Of Organic Molecules Via Fine Chemical Synthesis. Current Laboratory and Industrial Methods For
Preparing Organic Molecules Are Extremely Dependent on Nonrenewable Energy Sources. Additionally,
These Conventional Procedures Typically Necessitate Conditions of Severe Temperature and Pressure. In
Recent Years, There Has Been a Change In Emphasis Toward Photocatalysis Due to a Greater Worldwide
Awareness of the Need to Conserve Nonrenewable Sources of Energy. Photocatalysts Have Been Known To
Catalyse Numerous Organic Reactions, Including Oxidation, Reduction, Addition, Cyclization, And
Breakdown, For Quite some Time. the Development of Nanotechnology Enabled the Downscaling of These
Photocatalytic Materials from Bulk to Nanoscale, Hence Expanding Their Use and Efficacy. Advances In
Material Chemistry and Nanotechnology Have Also Made It Possible to Produce Nano-Photocatalysts Of
Novel Types, Whose Molecular Characteristics Can Be Tailored and Controlled. In This Review, an Attempt
Has Been Made to Categorise These Various Nanophotocatalysts Based on Their Composition And
Mechanism. Under Uvvisible Irradiation, These Nanomaterials Can Be Employed For a Variety of Organic
Transformations, As Highlighted In the Review. Nanophotocatalysts Have Considerable Potential For The
Eco-Friendly Synthesis of Extremely Valuable Chemical Molecules. We Trust That This Review Is Accurate
Can Provide Ins ...