We　demonstrate　a　novel　method　for　producing　optically　induced　Lieb　and　super-honeycomb　lattices,　by　employing　the　fractional　Talbot　effect　of　specific　periodic　beam　structures.　Our　numerical　and　analytical　results　display　the　generation　of　Lieb　and　super-honeycomb　lattices　at　fractional　Talbot　lengths　effectively　and　with　high　beam　quality.　By　adjusting　the　initial　phase　shifts　of　the　interfering　beams,　the　incident　periodic　beam　structures,　as　well　as　the　lattices　with　broken　inversion　symmetry,　can　be　constructed　in　situ.　This　research　suggests　not　only　a　possible　practical　utilization　of　the　Talbot　effect　in　the　production　of　novel　optically　induced　lattices　but　also　in　the　studies　of　related　optical　topological　phenomena.　(C)　2019　Optical　Society　of　America