In　the　rapidly　evolving　Metaverse,　enhancing　user　immersion　through　clear,　lifelike,　and　ergonomic　near-eye　displays　is　crucial.　However,　existing　rigid　near-eye　displays　encounter　challenges　such　as　insufficient　resolution,　limited　adaptability,　and　suboptimal　visual　experiences.　To　address　these　issues,　a　strategic　shift　is　proposed　to　flexible　ultrahigh-resolution　(FUR)　displays,　which　combine　ultrahigh　resolution　with　the　ability　to　conform　to　individual　eye　curvature　for　a　more　realistic　field　of　view.　FUR　quantum　dot　light-emitting　diodes　(FUR-QLEDs)　featuring　9072　pixels　per　inch　(PPI),　a　maximum　external　quantum　efficiency　(EQE)　of　15.7%,　and　peak　brightness　of　15 163 cd　m−2　are　achieved　through　the　integration　of　nanoimprinting　and　surface　modification　technologies.　The　degradation　mechanism　of　FUR-QLEDs　under　bending　fatigue　tests　is　investigated,　identifying　the　high　elastic　modulus　of　the　insulating　patterned　film　as　the　primary　cause　through　theoretical　analysis,　simulation,　and　experimental　characterizations.　Optimizing　the　elastic　modulus　of　the　patterned　film　enabled　to　maintain　91%　of　its　initial　brightness　after　400　bending　cycles,　demonstrating　exceptional　bending　stability　and　durability　of　FUR-QLEDs.　©　2024　Wiley-VCH　GmbH.