EIPBN23
EIPBN23

Invited Speaker

Scott Lewis

California Institute of Technology

Additive Nano Manufacturing of Insulators and Semiconductors Grown by Direct-Write 3D Nanoprinting

Scott Lewis, Guy A. Derose (California Institute of Technology)

We present new materials that can be transformed into insulators and semiconductors when exposed with an electron beam. These materials can be sublimed onto a substrate and exposed to an electron beam which writes the pattern into the material. This process is repeated to produce 3D nanostructures.

About Scott Lewis

Dr. Lewis has over 15 years’ experience developing metal – organic resist materials for electron/ion beam and extreme ultra violet lithography. He has developed a 3D Monte Carlo simulation suite called ‘Excalibur’ for modelling resist materials and in nanofabrication by Electron Beam Lithography (EBL) and Ion Beam Lithography (IBL).

Dr. Lewis is a co-founder of a spin out company called ‘Sci-Tron Ltd’ from the University of Manchester to provide a platform for the unique resist technology developed at the University of Manchester to reach to the market. He is the inventor of the ‘SML resist’ that exhibits nano structures with aspect ratios of more than 10:1, which led to the creation of a company called EM Resist Ltd. SML resist is widely used in research laboratories.

In November 2022, Dr Lewis was appointed to the California Institute of Technology (Caltech). Dr. Lewis’s research focuses on designing new active materials that can be integrated into electron/ion beam additive engineering systems. Specifically designing and characterizing positive and negative resist materials for electron beam and extreme ultra violet lithography and pattern transfer. His particular interests and active programme include: Developing new models for 3D Monte Carlo simulations to model resist materials, where his focus is to model the electron scattering behaviour in the resist environment to enable the nanofabrication of disruptive devices by photo and e-beam lithography. Developing new electron beam tools for additive manufacturing. Developing new materials for electron beam lithography and extreme ultra violet lithography that will enable fabrication of 5 nm structures. Developing pattern transfer processes by either metalization or dry etching techniques. Developing electron accelerator technology that leads to the understanding of the exposure mechanisms of resist materials.

Prior to joining Caltech, in 2016, Dr. Lewis was appointed to a research fellow at the school of Chemistry, University of Manchester, United Kingdom. His major research is on designing and fabricating unique positive and negative resist systems which are exposed using  Extreme Ultra Violet lithography (EUVL) or Electron Beam lithography (EBL) techniques. His areas of research was supported by EPSRC, UKRI, and Industrial grants. Prior to joining the University of Manchester, Dr. Lewis earned his BENG in Electronic Engineering from Cardiff University, United Kingdom followed by MSc. In Electronic Engineering and Ph.D. in Electronic Engineering degrees.

In 2016, Dr. Lewis was a recipient of the Royal Society of Chemistry Emerging Technologies for Materials award. He is author/co-author of more than 20 papers, 3 book chapters, and over 40 patent applications.

Scott Lewis