The　technological　realization　of　wearable　triboelectric　generators　is　attractive　because　of　their　promising　applications　in　wearable　self-powered　intelligent　systems.　However,　the　low　electrical　conductivity,　the　low　electrical　stability,　and　the　low　compatibility　of　current　electronic　textiles　(e-textiles)　and　clothing　restrict　the　comfortable　and　aesthetic　integration　of　wearable　generators　into　human　clothing.　Here,　we　present　high-performance,　transparent,　smart　e-textiles　that　employ　commercial　textiles　coated　with　silver　nanowire/graphene　sheets　fabricated　by　using　a　scalable,　environmentally　friendly,　full-solution　process.　The　smart　e-textiles　show　superb　and　stable　conduction　of　below　20　ω/square　as　well　as　excellent　flexibility,　stretchability,　foldability,　and　washability.　In　addition,　wearable　electricity-generating　textiles,　in　which　the　e-textiles　act　as　electrodes　as　well　as　wearable　substrates,　are　presented.　Because　of　the　high　compatibility　of　smart　e-textiles　and　clothing,　the　electricity-generating　textiles　can　be　easily　integrated　into　a　glove　to　harvest　the　mechanical　energy　induced　by　the　motion　of　the　fingers.　The　effective　output　power　generated　by　a　single　generator　due　to　that　motion　reached　as　high　as　7　nW/cm2.　The　successful　demonstration　of　the　electricity-generating　glove　suggests　a　promising　future　for　polyester/Ag　nanowire/graphene　core-shell　nanocomposite-based　smart　e-textiles　for　real　wearable　electronic　systems　and　self-powered　clothing.　©　2016　American　Chemical　Society.