Silver　nanowires　(Ag-NWs),　which　possess　a　high　aspect　ratio　with　superior　electrical　conductivity　and　transmittance,　show　great　promise　as　flexible　transparent　electrodes　(FTEs)　for　future　electronics.　Unfortunately,　the　fabrication　of　Ag-NW　conductive　networks　with　low　conductivity　and　high　transmittance　is　a　major　challenge　due　to　the　ohmic　contact　resistance　between　Ag-NWs.　Here　we　report　a　facile　method　of　fabricating　high-performance　Ag-NW　electrodes　on　flexible　substrates.　A　532　nm　nanosecond　pulsed　laser　is　employed　to　nano-weld　the　Ag-NW　junctions　through　the　energy　confinement　caused　by　localized　surface　plasmon　resonance,　reducing　the　sheet　resistance　and　connecting　the　junctions　with　the　substrate.　Additionally,　the　thermal　effect　of　the　pulsed　laser　on　organic　substrates　can　be　ignored　due　to　the　low　energy　input　and　high　transparency　of　the　substrate.　The　fabricated　FTEs　demonstrate　a　high　transmittance　(up　to　85.9%)　in　the　visible　band,　a　low　sheet　resistance　of　11.3　omega/sq,　high　flexibility　and　strong　durability.　The　applications　of　FTEs　to　2D　materials　and　LEDs　are　also　explored.　The　present　work　points　toward　a　promising　new　method　for　fabricating　high-performance　FTEs　for　future　wearable　electronic　and　optoelectronic　devices.