The　development　of　various　artificial　electronics　and　machines　would　explosively　increase　the　amount　of　information　and　data,　which　need　to　be　processed　via　in-situ　remediation.　Bioinspired　synapse　devices　can　store　and　process　signals　in　a　parallel　way,　thus　improving　fault　tolerance　and　decreasing　the　power　consumption　of　artificial　systems.　The　organic　field　effect　transistor　(OFET)　is　a　promising　component　for　bioinspired　neuromorphic　systems　because　it　is　suitable　for　large-scale　integrated　circuits　and　flexible　devices.　In　this　review,　the　organic　semiconductor　materials,　structures　and　fabrication,　and　different　artificial　sensory　perception　systems　functions　based　on　neuromorphic　OFET　devices　are　summarized.　Subsequently,　a　summary　and　challenges　of　neuromorphic　OFET　devices　are　provided.　This　review　presents　a　detailed　introduction　to　the　recent　progress　of　neuromorphic　OFET　devices　from　semiconductor　materials　to　perception　systems,　which　would　serve　as　a　reference　for　the　development　of　neuromorphic　systems　in　future　bioinspired　electronics.　The　basic　organic　materials　of　neuromorphic　OFETs　are　summarized.The　device　structures　and　working　mechanisms　based　on　neuromorphic　OFETs　are　systematically　reviewed.The　device　structures　and　working　mechanisms　based　on　neuromorphic　OFETs　are　sorted　out　and　discussed　in　detail.