Area‐Selective Atomic Layer Deposition Using Vapor Dosing of Short‐Chain Alkanethiol Inhibitors on Metal/Dielectric Surfaces
Jeongbin Lee, Jeong‐Min Lee, Ji‐Hoon Ahn, Tae Joo Park, Woo‐Hee Kim
Abstract
Abstract Area‐selective atomic layer deposition (AS‐ALD) has enormous potential for selective formation of thin films in a bottom‐up additive fashion on predefined areas. Despite significant efforts in a number of AS‐ALD processes using bulky self‐assembled monolayers (SAMs) with long alkyl chains as inhibitor molecules on non‐growth areas, there is increasing interest in achieving selective deposition compatible with complex 3D structures with smaller technology nodes in the semiconductor industry. In this work, a process is introduced that allows selective deposition with short‐chain alkanethiols as vapor‐phase inhibitors. For this purpose, 1‐hexanethiol and 1‐propanethiol are used to selectively deactivate the Cu region relative to the SiO 2 region as a model metal/oxide system. Using discrete feeding of both alkanethiols, their blocking capability is explored against subsequent Ru ALD. To improve their blocking ability toward achieving better selectivity for thicker films at higher numbers of ALD cycles, a combined strategy is further demonstrated that involves periodically correcting procedures composed of consecutive “selective lift‐off of residual film moieties” and “regeneration of alkanethiols” to restore the surface‐deactivating capability on the non‐growth areas. Current approaches toward practical enablement of AS‐ALD using short‐chain inhibitors can open up the possibility for advanced bottom‐up nanofabrication compatible with next‐generation nanoelectronic applications.