The localized surface plasmon resonance (LSPR) in metal nanostructures is one of the most efficient materials for the futuristic energy, environmental science and industry. The new era is the ability to significantly drive and promote photocatalytic reactions and photodetection which acts as an interfacial energy transfer to adsorbate molecules and semiconductors.  The combination of plasmonic noble metallic nanostructures with semiconductors for plasmon-enhanced visible light-driven water splitting (WS) has attracted considerable attention. WS is one of the most capable way to save solar energy into other useful energy applications. In WS, solar energy is converted to chemical energy mainly in the form of hydrogen and oxygen. Some of the review reports indicate that the highest reported quantum efficiency for overall WS achieved is 57% with NiO/NaTaO 3 :La photocatalyst under the excitation wavelength of 270 nm [1]. Its large scale commercial applications a...