The　selective　oxidation　of　aromatic　alcohols　in　water　is　achieved　by　using　a　carbon　nitride　(CN)　catalyst,　dioxygen,　and　visible　light.　The　unique　electronic　structure　of　CN　avoids　the　direct　formation　of　hydroxyl　radicals,　which　typically　cause　the　total　oxidation　of　organics.　The　chemical　stability　of　CN　allows　several　chemical　protocols　for　photoredox　catalysis　in　water,　as　exemplified　by　cooperative　catalysis　involving　Brønsted　acids.　This　leads　to　a　new,　green　pathway　for　diverse　organic　transformations　using　sunlight　and　water.　Copyright　©　2013　WILEY-VCH　Verlag　GmbH　&　Co.　KGaA,　Weinheim.