Direct plasmonic photocatalyst is a newly emerging top-trending topic, combining the characteristic of heterogeneous catalyst and the unique light response of plasmon structure, makes it a highly promising way to concentrate light energy into reactant molecule and provides a new pathway to control chemical reaction rate and thus, reaction selectivity. Direct plasmonic photocatalyst also lights up the possibility to do what conventional thermal-based catalysis reaction can’t do, showing up with the new reaction path attributed to the plasmon-induced hot electron effect. In this endeavor, surface-enhanced Raman spectroscopy (SERS) has been employed to detect time-dependent and hot-spot localized reaction process, and its in-situ detection facilitates the immediately observation of reaction procedure. With the help of focused ion beam milling technique, the precisely designed nanostructure can be fabricated and tailored to discover underlying reaction mechanism.