Three-dimensional　(3D)　graphene　aerogels,　by　virtue　of　their　unique　physicochemical　properties,　which　result　from　the　intrinsic　properties　of　graphene　and　3D　porous　structure　characteristics,　have　attracted　ever-increasing　research　interest　in　the　field　of　photocatalysis　for　the　sake　of　efficient　utilization　of　solar　energy.　Herein,　we　intend　to　afford　a　concise　review　on　the　recent　progress　regarding　the　synthetic　method　of　graphene　aerogels　and　the　promising　applications　of　graphene　aerogel-based　photocatalysts　in　pollutant　elimination,　water　splitting,　CO2　reduction,　organic　synthesis　and　atmospheric　ammonia　synthesis.　In　particular,　the　superiorities　of　3D　graphene　aerogel-based　photocatalysts　for　various　solar-driven　photoredox　applications　have　been　demonstrated.　Furthermore,　in　addition　to　discussing　opportunities　offered　by　graphene　aerogel-supported　photocatalysts,　we　will　also　describe　the　existing　challenges　and　the　future　direction　of　graphene　aerogel-based　photocatalysts　in　this　burgeoning　research　area.　It　is　hoped　that　this　review　could　spur　multidisciplinary　research　interest　for　advancing　the　rational　utilization　of　3D　graphene　aerogels　to　synthesize　more　efficient　photocatalysts　for　practical　applications.