Nanotechnology Now – Press Release: Scientists probe the limits of ice: Transition between ice and liquid water gets fuzzy at the nanoscale


Home > Press > Scientists probe the limits of ice: Transition between ice and liquid water gets fuzzy at the nanoscale

The coexistence of ice and liquid water breaks down at the nanoscale.

Credit: Wikimedia Commons
The coexistence of ice and liquid water breaks down at the nanoscale.

Credit: Wikimedia Commons

Abstract:
How small is the tiniest possible particle of ice? According to new NSF-funded research published in the journal Proceedings of the National Academy of Sciences, the smallest nanodroplet of water in which ice can form is only as big as 90 water molecules — a tenth the size of the smallest virus. At those small scales, according to University of Utah chemist and study co-author Valeria Molinero, the transition between ice and water gets a little fuzzy.

Scientists probe the limits of ice: Transition between ice and liquid water gets fuzzy at the nanoscale


Alexandria, VA | Posted on November 9th, 2019

That transition is among the most important transformations between phases (solids, liquids and gases) on our planet, where it has unique effects on climate while regulating the viability of life. Understanding the conditions that lead to the formation of ice is an active quest in the environmental and earth sciences, physics, chemistry, biology and engineering.

Ice exists on Earth almost exclusively in the highly ordered hexagonal crystal structure known as “ice I.” In our atmosphere, small water clusters form and subsequently freeze, seeding larger crystals and eventually clouds. Due to competing thermodynamic effects, however, below a certain diameter these water clusters cannot form stable ice I. The size range of water clusters capable of forming ice I has been investigated for years, with most recent estimates narrowing the range from as low as 90 water molecules to as high as 400.

In the new study, researchers combine recent advances to disentangle the interplay between the constraints that act on the ice-liquid transition in nanometer-sized clusters.

“This research provides fundamental insights into a substance as familiar as water,” says Anne-Marie Schmoltner, a program director in NSF’s Division of Chemistry. “With sophisticated computer models, we can understand what happens with every single water molecule in a very, very small droplet.”

The research was funded through an NSF award supporting the Center for Aerosol Impacts on Climate and the Environment.

####

For more information, please click here

Contacts:
NSF Public Affairs, (703) 292-7090

Copyright © National Science Foundation

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

News and information

Better biosensor technology created for stem cells: Rutgers innovation may help guide treatment of Alzheimer’s, Parkinson’s diseases November 12th, 2019

Moving diagnostics out of the lab and into your hand: Electrochemical sensor platform technology could enable portable, multiplexed, point-of-care diagnostics for a wide range of applications November 11th, 2019

Arrowhead Pharmaceuticals to Webcast Fiscal 2019 Year End Results November 11th, 2019

Go with the flow: Scientists design new grid batteries for renewable energy: New blueprint for affordable, sustainable ‘flow batteries’ developed at Berkeley Lab could accelerate an electrical grid powered by the sun and wind November 8th, 2019

Chemistry

Sponge-like 2D material with interesting electrical conductivity and magnetic properties: Researchers synthesize a new 2D Metal Organic Framework with an ever-growing list of possible applications October 31st, 2019

Visible light and nanoparticle catalysts produce desirable bioactive molecules: Simple photochemical method takes advantage of quantum mechanics October 31st, 2019

Bio-inspired nano-catalyst guides chiral reactions October 25th, 2019

Creating a nanospace like no other: Scientists build a nanocage with antiaromatic walls October 25th, 2019

Govt.-Legislation/Regulation/Funding/Policy

Better biosensor technology created for stem cells: Rutgers innovation may help guide treatment of Alzheimer’s, Parkinson’s diseases November 12th, 2019

Moving diagnostics out of the lab and into your hand: Electrochemical sensor platform technology could enable portable, multiplexed, point-of-care diagnostics for a wide range of applications November 11th, 2019

Argonne collaborates to review current battery recycling processes for electric vehicles November 8th, 2019

Go with the flow: Scientists design new grid batteries for renewable energy: New blueprint for affordable, sustainable ‘flow batteries’ developed at Berkeley Lab could accelerate an electrical grid powered by the sun and wind November 8th, 2019

Possible Futures

Better biosensor technology created for stem cells: Rutgers innovation may help guide treatment of Alzheimer’s, Parkinson’s diseases November 12th, 2019

Moving diagnostics out of the lab and into your hand: Electrochemical sensor platform technology could enable portable, multiplexed, point-of-care diagnostics for a wide range of applications November 11th, 2019

Arrowhead Pharmaceuticals to Webcast Fiscal 2019 Year End Results November 11th, 2019

Go with the flow: Scientists design new grid batteries for renewable energy: New blueprint for affordable, sustainable ‘flow batteries’ developed at Berkeley Lab could accelerate an electrical grid powered by the sun and wind November 8th, 2019

Discoveries

Better biosensor technology created for stem cells: Rutgers innovation may help guide treatment of Alzheimer’s, Parkinson’s diseases November 12th, 2019

Moving diagnostics out of the lab and into your hand: Electrochemical sensor platform technology could enable portable, multiplexed, point-of-care diagnostics for a wide range of applications November 11th, 2019

Self-assembled microspheres of silica to cool surfaces without energy consumption November 8th, 2019

Go with the flow: Scientists design new grid batteries for renewable energy: New blueprint for affordable, sustainable ‘flow batteries’ developed at Berkeley Lab could accelerate an electrical grid powered by the sun and wind November 8th, 2019

Materials/Metamaterials

Disordered proteins become stable, ‘super-sticky’ materials: Improved protein control could lead to wound-healing gels and other applications November 3rd, 2019

Physicists found weak spots in ceramic/graphene composites: Physicists found out the structures in nanomaterials made of ceramic and graphene plates, in which cracks appear most frequently September 27th, 2019

Turning heat into electricity: A new thermoelectric material developed at FEFU: Young scientists from FEFU manufactured new thermoelectric material based on strontium titanate and titanium oxide September 27th, 2019

The future of materials with graphene nanotubes starts in Japan September 19th, 2019

Announcements

Better biosensor technology created for stem cells: Rutgers innovation may help guide treatment of Alzheimer’s, Parkinson’s diseases November 12th, 2019

Moving diagnostics out of the lab and into your hand: Electrochemical sensor platform technology could enable portable, multiplexed, point-of-care diagnostics for a wide range of applications November 11th, 2019

Arrowhead Pharmaceuticals to Webcast Fiscal 2019 Year End Results November 11th, 2019

Go with the flow: Scientists design new grid batteries for renewable energy: New blueprint for affordable, sustainable ‘flow batteries’ developed at Berkeley Lab could accelerate an electrical grid powered by the sun and wind November 8th, 2019

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

Better biosensor technology created for stem cells: Rutgers innovation may help guide treatment of Alzheimer’s, Parkinson’s diseases November 12th, 2019

Moving diagnostics out of the lab and into your hand: Electrochemical sensor platform technology could enable portable, multiplexed, point-of-care diagnostics for a wide range of applications November 11th, 2019

Arrowhead and Collaborator Janssen Present Phase 2 Clinical Data for Investigational Hepatitis B Regimens at The Liver Meeting® 2019 November 8th, 2019

Go with the flow: Scientists design new grid batteries for renewable energy: New blueprint for affordable, sustainable ‘flow batteries’ developed at Berkeley Lab could accelerate an electrical grid powered by the sun and wind November 8th, 2019

Water

Rice lab produces simple fluorescent surfactants: Compounds show promise for use in medicine, manufacturing August 5th, 2019

Wood You Like Some Fresh Water? New treatment for wood makes a membrane to extract fresh water August 5th, 2019

‘Hot spots’ increase efficiency of solar desalination: Rice University engineers boost output of solar desalination system by 50% June 19th, 2019

Making graphene-based desalination membranes less prone to defects, better at separating June 13th, 2019

Leave a Reply

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