Formation of abrupt tunneling junction for the sub-nanometer tunnel FET (TFET) is crucial for achieving better electrical behavior. This task is more challenging in the case of dopingless TFETs (DL TFETs). In this concern, we propose a novel design of DL TFET, wherein a metallic layer has been placed in the oxide region at the space present between gate and source electrode (used for inducing p+ region) of conventional dopingless n-TFET to overcome the issue of low on-state current (I on ) due to presence of tunneling barrier. Proposed modification is helpful for achieving steeper tunneling junction at the source/channel interface, which enables higher tunneling generation rate of charge carriers at this interface. The optimization for work function of the metal layer (ML) has been performed for improving Ion, point subthreshold swing and threshold voltage (V th ). Finally, the impact of the ML misalignment from the gate/source terminal and optimization of its length is also presented.