Nanotechnology Now – Press Release: Patterning silicon at the one nanometer scale: Scientists engineer materials’ electrical and optical properties with plasmon engineering

Home > Press > Patterning silicon at the one nanometer scale: Scientists engineer materials’ electrical and optical properties with plasmon engineering

Ions from a reactive plasma shape a silicon nanowire approximately 40 atoms wide. The periodic atomic arrangement is preserved up to the edge of the nanowire. CREDIT Image courtesy of V.R. Manfrinato et al., Patterning Si at the 1 nm Length Scale with Aberration-Corrected Electron-Beam Lithography: Tuning of Plasmonic Properties by Design, Adv. Funct. Mater. 2019 1903429. Wiley-VCH GmbH. Reproduced with permission.

Abstract:
The Science
Researchers have developed an innovative technique for creating nanomaterials. These are materials only atoms wide. They draw on nanoscience to allow scientists to control their construction and behavior. The new electron beam nanofabrication technique is called plasmon engineering. It achieves unprecedented near-atomic scale control of patterning in silicon. Structures built using this approach produce record-high tuning of electro-optical properties.

Patterning silicon at the one nanometer scale: Scientists engineer materials’ electrical and optical properties with plasmon engineering

Washington, DC | Posted on August 13th, 2021

The Impact
In this research, scientists used plasmon engineering to control the optical and electronic properties of silicon. The technique uses aberration-corrected electron beam lithography. This process involves using a beam of electrons to modify the surface of a material. Plasmon engineering allowed researchers to modify material at the near atomic scale. The use of “conventional” lithography means this approach could one day be applied to industrial applications. This approach will benefit researchers working on optical communications, sensing, and quantum computing.

Summary
Patterning materials at single nanometer resolution allows scientists to precisely engineer quantum confinement effects. Quantum effects are significant at these length scales and controlling the nanostructure dimensions provides direct control over electrical and optical properties. Silicon is by far the most widely-used semiconductor material in electronics, and the ability to fabricate silicone‐based devices of the smallest dimensions for novel device engineering is highly desirable. Researchers at Brookhaven’s Center for Functional Nanomaterials, a Department of Energy user facility, used aberration‐corrected electron‐beam lithography combined with dry reactive ion etching to achieve patterning of 1 nanometer features as well as surface and volume plasmon engineering in silicon. The nanofabrication technique employed here produces nanowires with a line edge roughness of 1 nanometer. In addition, this work demonstrates tuning of the silicon volume plasmon energy by 1.2 electron volt from the bulk value, which is ten times higher than previous attempts of volume plasmon engineering using lithographic methods.

Funding
This research was supported by the DOE Office of Science and used resources at the Center for Functional Nanomaterials, an Office of Science user facility at Brookhaven National Laboratory.

####

For more information, please click here

Contacts:
Michael Church

Office: 505-358-1481

Copyright © U.S. Department of Energy

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:

ARTICLE TITLE

News and information

Metasurfaces control polarized light at will: New research unlocks the hidden potential of metasurfaces August 13th, 2021

A holistic approach to materials for the next generation of electrical insulation August 13th, 2021

DTU researchers tighten grip on quantum computer: In a new groundbreaking work, researchers from DTU have now realized the complete platform for an optical quantum computer August 13th, 2021

Best of both worlds—Combining classical and quantum systems to meet supercomputing demands: Scientists detect strongly entangled pair of protons on a nanocrystalline silicon surface, potentially enabling new levels of high-speed computing August 13th, 2021

Laboratories

Verizon and Zurich Instruments join Q-NEXT national quantum science center August 6th, 2021

Scientists take first snapshots of ultrafast switching in a quantum electronic device: They discover a short-lived state that could lead to faster and more energy-efficient computing devices July 16th, 2021

Argonne researchers use AI to optimize a popular material coating technique in real time June 25th, 2021

Putting functional proteins in their place: Using DNA-based assembly, scientists developed a method for creating designed and biologically active 2-D and 3-D protein arrays, which show promise for applications in structural biology, biomaterials, nanomedicine, and biocatalysis June 25th, 2021

Nanofabrication

New tech builds ultralow-loss integrated photonic circuits April 16th, 2021

Kirigami-style fabrication may enable new 3D nanostructures April 2nd, 2021

Building tough 3D nanomaterials with DNA: Columbia Engineers use DNA nanotechnology to create highly resilient synthetic nanoparticle-based materials that can be processed through conventional nanofabrication methods March 19th, 2021

Bringing Atoms to a Standstill: NIST Miniaturizes Laser Cooling January January 21st, 2021

Plasmonics

TPU scientists offer new plasmon energy-based method to remove CO2 from atmosphere March 19th, 2021

USTC develops ultrahigh-performance plasmonic metal-oxide materials January 11th, 2021

Experiment takes ‘snapshots’ of light, stops light, uses light to change properties of matter December 25th, 2020

Govt.-Legislation/Regulation/Funding/Policy

DTU researchers tighten grip on quantum computer: In a new groundbreaking work, researchers from DTU have now realized the complete platform for an optical quantum computer August 13th, 2021

Novel nanotechnology found to enhance fight against colorectal cancer and melanoma: A first-of-its-kind nanotherapeutic delivery system demonstrated remarkable efficacy against both early-stage and difficult-to-treat late-stage metastatic tumors August 13th, 2021

Verizon and Zurich Instruments join Q-NEXT national quantum science center August 6th, 2021

NIST’s quantum crystal could be a new dark matter sensor Peer-Reviewed Publication August 6th, 2021

Possible Futures

Novel nanotechnology found to enhance fight against colorectal cancer and melanoma: A first-of-its-kind nanotherapeutic delivery system demonstrated remarkable efficacy against both early-stage and difficult-to-treat late-stage metastatic tumors August 13th, 2021

HKUST scientists discover new mechanisms of activity improvement on bimetallic catalysts for hydrogen generation and fuel cells August 13th, 2021

One-dimensional red phosphorous glows in unexpected ways: New study published in Nature Communications is the first to show strong optical properties in a 1D van der Waal material August 13th, 2021

Silica nanostructure with chemo-enzymatic compartmentalization August 13th, 2021

Optical computing/Photonic computing

Metasurfaces control polarized light at will: New research unlocks the hidden potential of metasurfaces August 13th, 2021

DTU researchers tighten grip on quantum computer: In a new groundbreaking work, researchers from DTU have now realized the complete platform for an optical quantum computer August 13th, 2021

Non-linear effects in coupled optical microcavities August 5th, 2021

Non-linear effects in coupled optical microcavities July 30th, 2021

Discoveries

DTU researchers tighten grip on quantum computer: In a new groundbreaking work, researchers from DTU have now realized the complete platform for an optical quantum computer August 13th, 2021

Best of both worlds—Combining classical and quantum systems to meet supercomputing demands: Scientists detect strongly entangled pair of protons on a nanocrystalline silicon surface, potentially enabling new levels of high-speed computing August 13th, 2021

Harnessing sunlight to fuel the future through covalent organic frameworks: Scientists underscore the potential of a new class of materials to convert sunlight to fuel August 13th, 2021

Novel nanotechnology found to enhance fight against colorectal cancer and melanoma: A first-of-its-kind nanotherapeutic delivery system demonstrated remarkable efficacy against both early-stage and difficult-to-treat late-stage metastatic tumors August 13th, 2021

Materials/Metamaterials

Quantum computing enables unprecedented materials science simulations: Multi-institutional team provides a foundation for unraveling the mysteries of magnetic materials August 6th, 2021

Controlling chaos in liquid crystals, gaining precision in autonomous technologies August 6th, 2021

Chaotic electrons heed ‘limit’ in strange metals July 30th, 2021

Scientists release new AI-based tools to accelerate functional electronic materials discovery: The work could allow scientists to accelerate the discovery of materials showing a metal-insulator transition July 30th, 2021

Announcements

Novel nanotechnology found to enhance fight against colorectal cancer and melanoma: A first-of-its-kind nanotherapeutic delivery system demonstrated remarkable efficacy against both early-stage and difficult-to-treat late-stage metastatic tumors August 13th, 2021

HKUST scientists discover new mechanisms of activity improvement on bimetallic catalysts for hydrogen generation and fuel cells August 13th, 2021

One-dimensional red phosphorous glows in unexpected ways: New study published in Nature Communications is the first to show strong optical properties in a 1D van der Waal material August 13th, 2021

Silica nanostructure with chemo-enzymatic compartmentalization August 13th, 2021

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

DTU researchers tighten grip on quantum computer: In a new groundbreaking work, researchers from DTU have now realized the complete platform for an optical quantum computer August 13th, 2021

Best of both worlds—Combining classical and quantum systems to meet supercomputing demands: Scientists detect strongly entangled pair of protons on a nanocrystalline silicon surface, potentially enabling new levels of high-speed computing August 13th, 2021

Harnessing sunlight to fuel the future through covalent organic frameworks: Scientists underscore the potential of a new class of materials to convert sunlight to fuel August 13th, 2021

Novel nanotechnology found to enhance fight against colorectal cancer and melanoma: A first-of-its-kind nanotherapeutic delivery system demonstrated remarkable efficacy against both early-stage and difficult-to-treat late-stage metastatic tumors August 13th, 2021

Photonics/Optics/Lasers

Metasurfaces control polarized light at will: New research unlocks the hidden potential of metasurfaces August 13th, 2021

DTU researchers tighten grip on quantum computer: In a new groundbreaking work, researchers from DTU have now realized the complete platform for an optical quantum computer August 13th, 2021

Non-linear effects in coupled optical microcavities August 5th, 2021

UVA Engineering researchers join quest to demonstrate photonic systems-on-chip: Future applications include faster, more efficient data centers and next-generation millimeter-wave wireless communication July 30th, 2021