S-scheme　In2S3/Zn3In2S6　microspheres　were　successfully　prepared　through　hydrothermal　means　for　enhanced　photocatalytic　H2　evolution　with　simultaneous　photodegradation　of　bisphenol　A.　The　microspheres　were　assembled　by　embedding　2D　In2S3　nanosheets　into　2D-3D　Zn3In2S6　hierarchical　microspheres　to　enhance　visible　light　absorption　and　separation/migration　of　photo-excited　charge　carriers.　In　bisphenol　A　aqueous　solution,　the　photocatalytic　H2　evolution　rate　on　In2S3/Zn3In2S6　shows　15.7　and　7.9-folds　improvements　against　that　of　the　individual　In2S3　and　Zn3In2S6.　Meanwhile,　the　degradation　efficiency　of　bisphenol　A　is　up　to　95.8　%.　The　Sscheme　charge　transfer　mechanism　in　In2S3/Zn3In2S6　microspheres　maximizes　exerting　the　redox　capability　of　Zn3In2S6　for　H2　evolution　and　In2S3　for　bisphenol　A　degradation.