In　the　digital　era,　the　integration　of　high-level　information　has　become　a　routine　aspect　of　our　daily　lives.　Display　technology　plays　a　pivotal　role　in　human-machine　interaction,　and　its　significance　requires　no　elaboration.　However,　traditional　intelligent　display　technologies　are　gradually　encountering　challenges　in　meeting　the　demands　of　ever-evolving　human-machine　interaction　scenarios.　Against　this　backdrop,　as　a　novel　frontier　research　field,　neuromorphic　technology　offers　the　potential　to　address　the　shortcomings　of　display　technologies.　By　organically　combining　organic　neuromorphic　technology　with　traditional　display　technologies,　we　can　fully　leverage　their　immense　advantages　in　sensing,　driving,　and　emitting.　Organic　electronic　devices　possess　advantages　such　as　low　fabrication　costs　and　material　diversity.　They　can　bestow　rich　functionality　upon　neuromorphic　devices　constructed　based　on　them.　Consequently,　neuromorphic　displays　are　expected　to　become　one　of　the　crucial　directions　for　the　future　development　of　display　technology　in　organic　electronics.　They　can　offer　superior　solutions　for　increasingly　complex　human-computer　interaction　environments.　In　this　review,　we　comprehensively　summarize　the　latest　progress　of　organic　neural　morphology　technology　in　display　technology,　summarize　its　three　important　development　directions　in　neural　morphology　display,　and　explore　its　state-of-the-art　designs　and　potential　future　developments.　©　2024　Science　China　Press.　All　rights　reserved.