The formation of harmless to the ecosystem, monetarily reasonable, and chemically efficient cycles is the present key chemistry challenge. Presently, semiconductor heterogeneous photocatalysis is utilized in many cycles that affect society, from those that produce hydrogen and convert CO2 to those that transform natural unrefined substances into compounds with added esteem. Metal halide perovskites have recently emerged as a possible inspirational class of unassuming and simple to create photocatalytic semiconductors, despite their precariously abruptly supported gem structure. However, up until now, their widespread use has been required. We examine the challenges MHP-based photocatalysis encounters in this Review and emphasize the numerous frameworks being employed to create circumstances that are both favourable and stable for photocatalytic reaction. For hydrogen development responses, we explicitly talk about the utilization of (1) halogen corrosive arrangements (HX; X = I or Br), (2) extremely low-extremity solvents for natural changes and CO2 photograph decrease, and (3) the embodiment of perovskites for CO2 decrease and water parting. The means used to make innately stable photocatalytic materials are additionally definite, eliminating the interest for uncommon conditions. We close by introducing possibly alluring open doors and approaches for metal halide perovskite-based photocatalysis research going ahead, with every innovation offering particular arrangements of benefits and challenges.