摘要
In semiconductor manufacturing,PN junction is formed by introducing dopants to activate neighboring electron and hole conductance.To avoid structural distortion and failure,it generally requires the foreign dopants localize in the designated micro-areas.This,however,is challenging due to an inevitable interdiffusion process.Here we report a brand-new junction architecture,called"layer PN junction",that might break through such limit and help redefine the semiconductor device architecture.Different from all existing semiconductors,we find that a variety of van der Waals materials are doping themselves from n-to p-type conductance with an increasing/decreasing layer-number.It means the capability of constructing homogeneous PN junctions in monolayers'dimension/precision,with record high rectification-ratio(>10^(5))and low cut-off current(<1 pA).More importantly,it spawns intriguing functionalities,like gate-switchable-rectification and noise-signal decoupled avalanching.Findings disclosed here might open up a path to develop novel nanodevice applications,where the geometrical size becomes the only critical factor in tuning charge-carrier distribution and thus functionality.
基金
supported by National Natural Science Foundation of China(Grant No.11991063,62004207,61725505,621041181)
Shanghai Science and Technology Comitee(Grant No.2019SHZDZX01,19XD1404100,20YF1455900,20Z1474000)
Strategic Prionity Research Program of Chinese Academy of Sciences(Grant No.XDB43010200),Youth Innovation Promotion Association CAS.
