We　have　investigated　a　self-healing　thermally　conductive　Ethylene-vinyl　acetate　(EVA)　hot　melt　adhesive　(NAEDS,　which　denotes　the　addition　of　nano-alumina　and　disulfide　bonded　EVA　hot　melt　adhesives)　that　can　be　used　to　effectively　solve　adhesive　layer　separation　problem　in　photovoltaic　(PV)　modules　and　the　difficulty　of　recycling.　More　specifically,　we　used　diallyl　disulfide　as　a　cross-linking　agent　for　EVA　and　alumina　nanofillers　as　a　reinforcing　phase.　The　nano　alumina　filler　gave　the　EVA　better　thermal　conductivity.　We　used　FTIR,　SEM,　and　DSC　to　characterize　and　analyze　NAEDS　properties.　The　disulfide　bonds　in　NAEDS　underwent　a　rearrangement　reaction　under　ultraviolet　light,　resulting　in　the　self-healing　of　the　resin　(self-healing　efficiency　of　78.8%).　The　added　nano　alumina　not　only　reduced　the　resin　curing　activation　energy,　improving　its　curing　performance　but　also　enhanced　its　thermal　conductivity,　achieving　a　2.61 W/(m*k)　thermal　conductivity　coefficient.　The　overall　NAEDS　performance　is　improved.　©　The　Author(s)　2024.