05.30.18

How to Draw a Line Narrower Than a Cold Virus

Scientists use ion beams to write high-purity metal structures, enabling nanofabrication opportunities.

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How to Draw a Line Narrower Than a Cold Virus

Oak Ridge National Laboratory researchers married helium-ion microscopy with a liquid cell from Protochips Inc. of North Carolina to fabricate exceedingly pure platinum structures from a liquid. A highly focused beam of ions passed through a thin layer of a precursor solution and caused a chemical reaction that controllably deposited precious metal lines as narrow as 15 nanometers.

The Science

For the first time, a team demonstrated a technique that creates tiny, precise metallic shapes. They rastered a beam from a helium-ion microscope through a liquid precursor to induce chemical reactions. The reactions locally deposit high purity platinum. In spelling out the acronym of their national laboratory, they formed a ribbon only 15 nanometers in diameter—narrower than a cold virus.

The Impact

Direct ion beam writing opens nanofabrication opportunities to improve electronics, drug delivery, chemical separations, and other applications.

Summary

Oak Ridge National Laboratory (ORNL) researchers at the Center for Nanophase Materials Sciences rastered a highly focused helium-ion beam through a thin layer of precursor solution, causing site-specific platinum deposition in a controlled manner. This direct-write technique enabled nanofabrication of high-purity metallic ribbons only 15 nanometers wide—narrower than a cold virus. This work was the first demonstration of direct-write nanofabrication using an ion-beam microscope to direct chemical reactions in a liquid cell, or environmental chamber encapsulating a sample in liquid. It would not have been possible to directly write these highly precise, high-purity metallic structures without a full understanding from experiment and theory. Calculations on ORNL’s Titan supercomputer and analysis of data from experiment and simulation allowed researchers to understand the dynamic interactions between ions, solids, and liquids that were essential for optimizing the process. For example, the scientists analyzed data about nanoparticle nucleation and growth acquired from movies of these processes obtained from the microscope and correlated the results with comprehensive quantum dynamical simulations. Notably, direct writing with a contained liquid precursor, subjected to an ion beam that directed chemical reactions, allowed fabrication of purer nanostructures than would be possible using gas-phase deposition.

Contact

Olga Ovchinnikova
Center for Nanophase Materials Sciences, Oak Ridge National Laboratory
ovchinnikovo@ornl.gov

Funding

This research was conducted at the Center for Nanophase Materials Sciences, a Department of Energy (DOE) Office of Science user facility at Oak Ridge National Laboratory (ORNL). This research also used resources at the Oak Ridge Leadership Computing Facility, a DOE Office of Science user facility at ORNL. Protochips Inc. (Morrisville, North Carolina) provided the static fluid cell used in all experiments.

Publications

A.V. Ievlev, J. Jakowski, M.J. Burch, V. Iberi, H. Hysmith, D.C. Joy, B.G. Sumpter, A. Belianinov, R.R. Unocic, and O.S. Ovchinnikova, “Building with ions: Towards direct write of platinum nanostructures using in situ liquid cell helium ion microscopy.” Nanoscale 9, 12949 (2017). [DOI: 10.1039/c7nr04417h]

Related Links

Oak Ridge National Laboratory news release: Materials—Pure, precise nanostructuresExternal link

Highlight Categories

Program: ASCR, BES, SUF

Performer/Facility: University, DOE Laboratory, SC User Facilities, ASCR User Facilities, OLCF, BES User Facilities, CNMS

Additional: Technology Impact

Last modified: 5/30/2018 2:52:37 PM