Argonne National Laboratory

Upcoming Events

Overcoming Materials Science Roadblocks to Reach the Next Frontiers of Carbon Nanoelectronics, Water Separation, and Beyond

NST Colloquium
Michael S. Arnold, University of Wisconsin-Madison
June 13, 2018 11:00AM to 12:00PM
Building 440, Room A105-106

Abstract: My research addresses fundamental challenges in controlling the growth, processing, ordering, and heterogeneity of nanomaterials and in understanding phenomena beyond the scale of single nanostructures that must be overcome to exploit nanomaterials in technology.

In this seminar, I will present three recent advances from my laboratory:

  1. We have pioneered a scalable approach for assembling parallel arrays of ultrahigh-purity semiconducting nanotubes. This approach has allowed us to create carbon nanotube field effect transistors (FETs) with current density that exceeds silicon and GaAs, for the first time, which has been a goal in the nanoelectronics field for more than 20 years.
  2. We have discovered how to drive graphene crystal growth on Ge(001) surfaces with a giant anisotropy. This giant anisotropy is remarkable because it enables the rational synthesis of narrow, long, smooth, and oriented nanoribbons of graphene that are semiconducting, whereas unconfined graphene is typically a semimetal. This result opens up the possibility of realizing hybrid carbon nanoelectronics directly on conventional group IV or III-V semiconductor wafer substrates.
  3. Laminates of graphene oxide nanosheets have been shown to exhibit high water permeance and salt rejection. We have used experiments and modeling to show that the water transport pathways through such laminates are not as expected.

This work has implications in extending Moore’s Law, creating ultralow-energy logic circuits, developing higher bandwidth radio-frequency communication devices, and realizing next-generation water separation membranes.