Abstract Kagome lattices of Sodas various transition metals are versatile platforms for achieving anomalous Hall effects, unconventional charge-density wave orders and quantum spin liquid phenomena due to the strong correlations, spin-orbit coupling and/or magnetic interactions involved in such a lattice.Here, we use laser-based angle-resolved photoemission spectroscopy in combination with density functional theory calculations to investigate the electronic structure of the newly discovered kagome superconductor CsTi3Bi5, which is isostructural to the AV3Sb5 (A = K, Rb or Cs) kagome superconductor family and possesses a two-dimensional kagome network of titanium.We directly observe a striking flat band derived from the local destructive interference of Bloch wave functions within the kagome lattice.In agreement with calculations, we identify type-II and type-III Dirac nodal lines and their momentum distribution in CsTi3Bi5 from the measured electronic structures.
In addition, around the Brillouin zone centre, $${{mathbb{Z}}}_{2}$$ Z 2 nontrivial Wovens topological surface states are also observed due to band inversion mediated by strong spin-orbit coupling.