Near-eye　displays　are　widely　recognized　as　a　groundbreaking　technological　advancement　with　the　potential　to　significantly　impact　daily　life.　Within　the　realm　of　near-eye　displays,　micro-LEDs　have　emerged　as　a　highly　promising　technology　owing　to　their　exceptional　optical　performance,　compact　form　factor,　and　low　power　consumption.　However,　a　notable　challenge　in　integrating　micro-LEDs　into　near-eye　displays　is　the　efficient　light　collimation　across　a　wide　spectrum　range.　In　this　paper,　we　propose　what　we　believe　to　be　a　novel　design　of　a　broadband　beam　collimation　metasurface　for　full-color　micro-LEDs　by　harnessing　wavefront　phase　modulation　based　on　Huygens’　principle.　Our　results　demonstrate　a　substantial　reduction　in　the　full　width　at　half　maximum　(FWHM)　angles,　achieving　a　reduction　to　1/10,　1/10,　and　1/20　for　red,　green,　and　blue　micro-LEDs　compared　to　those　without　the　metasurface,　which　is　the　best　collimation　result　as　far　as　we　know.　The　central　light　intensity　increases　by　24.60,　36.49,　and　42.15　times.　Furthermore,　the　significant　enhancement　in　the　light　energy　within　±10°　is　achieved,　with　the　respective　multiplication　factors　of　14.16,　15.60,　and　13.00.　This　metasurface　has　the　potential　to　revolutionize　the　field　by　enabling　high-performance,　compact,　and　lightweight　micro-LED　displays,　with　applications　in　near-eye　displays,　micro-projectors,　and　beyond.　©　2024　Optica　Publishing　Group　under　the　terms　of　the　Optica　Open　Access　Publishing　Agreement.