Nanotechnology Now – Press Release: Drawing data in nanometer scale


Home > Press > Drawing data in nanometer scale

Left: Data storage using probe force. Right: Data storage area drawn with a width of 10 nm or less.
CREDIT
POSTECH
Left: Data storage using probe force. Right: Data storage area drawn with a width of 10 nm or less.
CREDIT
POSTECH

Abstract:
Frank Holzenburg, an artist with tens of thousands of followers across his social networking accounts, has attracted attention for his life-like drawings that are smaller than a fingernail. Recently, a method to draw data in an area smaller than 10 nanometers (nm; 1 nm = 1 billionth of a meter) – like drawing a small picture on paper – has been proposed.

Drawing data in nanometer scale


Pohang, Korea | Posted on September 30th, 2022

A joint research team led by Professor Daesu Lee (Department of Physics) of POSTECH, Professor Se Young Park (Department of Physics) at Soongsil University, and Dr. Ji Hye Lee (Department of Physics and Astronomy) of Seoul National University has proposed a method for densely storing data by ‘poking’ with a sharp probe. This method utilizes a material in the metastable state, whose properties change easily even with slight stimulation.

A thin film of metastable ferroelectric calcium titanate (CaTiO3) enables the polarization switching of a material even with a slight pressure of a probe: A very weak force of 100 nanonewtons (nN) is more than enough. The joint research team succeeded in making the width of the polarization path smaller than 10 nm by using this force and found the way to dramatically increase the capacity of data storage. This is because the smaller the size of the path, the more data the single material can store.

The data storage capacity increased by up to 1 terabit (Tbit)/cm as a result of drawing the data storage area using a probe on the thin film. This result is 10 times greater than that of a previous study (0.11Tbit/cm²) which suggested a probe-based storage method using another material. Unlike the data storage method that uses electric fields, this probe method only requires a very small force, so the burden on the device is also small.

The results from the study are drawing attention as they have proved that materials achieve higher performance in an unstable metastable state. The findings are anticipated to be applicable in the next-generation electronic devices with improved integration and efficiency in the future.

Recently published in Physical Review Letters, one of the most authoritative journals in the field of physics, this study was supported by the Institute for Basic Science, and by the Research Center Program, the Basic Science Research Institute Fund, and the Key Research Institutes in Universities program of the National Research Foundation of Korea.

####

For more information, please click here

Contacts:
Jinyoung Huh
Pohang University of Science & Technology (POSTECH)

Office: 82-54-279-2415

Copyright © Pohang University of Science & Technology (POSTECH)

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Bookmark:
Delicious
Digg
Newsvine
Google
Yahoo
Reddit
Magnoliacom
Furl
Facebook

ARTICLE TITLE

News and information


Researchers unveil mystery inside Li- o2 batteries September 30th, 2022


Synthesis of air-stable room-temperature van der Waals magnetic thin flakes September 30th, 2022


ACM Research Launches New Furnace Tool for Thermal Atomic Layer Deposition to Support Advanced Semiconductor Manufacturing Requirements: Ultra Fn A Furnace Tool Shipped to China-Based Foundry Customer September 30th, 2022


Exquisitely thin membranes can slash energy spent refining crude oil into fuel and plastic: Queen Mary scientists have created a new type of nanomembrane that presents a less energy intensive way to fractionate hydrocarbons from crude oil September 30th, 2022

Govt.-Legislation/Regulation/Funding/Policy


New technique allows researchers to scrape beyond the surface of nanomaterials: Using a new secondary-ion mass spectrometry technique, research are getting a fresh look at MXenes and MAX phases September 23rd, 2022


Solvent study solves solar cell durability puzzle: Rice-led project could make perovskite cells ready for prime time September 23rd, 2022


Heat-resistant nanophotonic material could help turn heat into electricity: The key to beating the heat is degrading the materials in advance September 23rd, 2022


Reduced power consumption in semiconductor devices September 23rd, 2022

Possible Futures


Researchers unveil mystery inside Li- o2 batteries September 30th, 2022


Synthesis of air-stable room-temperature van der Waals magnetic thin flakes September 30th, 2022


Layer Hall effect and hidden Berry curvature in antiferromagnetic insulators September 30th, 2022


ACM Research Launches New Furnace Tool for Thermal Atomic Layer Deposition to Support Advanced Semiconductor Manufacturing Requirements: Ultra Fn A Furnace Tool Shipped to China-Based Foundry Customer September 30th, 2022

Announcements


Researchers unveil mystery inside Li- o2 batteries September 30th, 2022


Synthesis of air-stable room-temperature van der Waals magnetic thin flakes September 30th, 2022


Layer Hall effect and hidden Berry curvature in antiferromagnetic insulators September 30th, 2022


ACM Research Launches New Furnace Tool for Thermal Atomic Layer Deposition to Support Advanced Semiconductor Manufacturing Requirements: Ultra Fn A Furnace Tool Shipped to China-Based Foundry Customer September 30th, 2022

Interviews/Book Reviews/Essays/Reports/Podcasts/Journals/White papers/Posters


Conformal optical black hole for cavity September 30th, 2022


Cleveland researchers reveal new strategy to prevent blood clots without increasing the risk of bleeding: University Hospitals and Case Western Reserve University findings may be especially impactful for cancer patients who experience blood clot complications September 30th, 2022


Ultrasmall VN/Co heterostructure with optimized N active sites anchored in N-doped graphitic nanocarbons for boosting hydrogen evolution September 30th, 2022


Layer Hall effect and hidden Berry curvature in antiferromagnetic insulators September 30th, 2022

Human Interest/Art


Scientists prepare for the world’s smallest race: Nanocar Race II March 18th, 2022


Graphene nanotubes revolutionize touch screen use for prosthetic hands August 3rd, 2021


JEOL Announces 2020 Microscopy Image Grand Prize Winners January 7th, 2021


No ink needed for these graphene artworks: Artist employs Rice University lab’s laser-induced graphene as medium for ultramodern art May 3rd, 2019

Grants/Sponsored Research/Awards/Scholarships/Gifts/Contests/Honors/Records


Multi-institution, $4.6 million NSF grant to fund nanotechnology training September 9th, 2022


Scientists take control of magnetism at the microscopic level: Neutrons reveal remarkable atomic behavior in thermoelectric materials for more efficient conversion of heat into electricity August 26th, 2022


Understanding outsize role of nanopores: New research reveals differences in pH, and more, about these previously mysterious environments August 26th, 2022


New chip ramps up AI computing efficiency August 19th, 2022

Leave a Reply

Your email address will not be published. Required fields are marked *