Molecular building blocks form three-dimensional structures on surfaces

The formation of a supramolecular bilayer is induced by buckyball guest molecules.

Project launched to create and test a molecular-sized processor chip

Singapore and European Union launch project to create and test a molecular-sized processor chip.

How graphene could complement or replace silicon in electronic applications

A review article presents the amazing features of graphene and discusses how it might complement or replace silicon for the fabrication of electronic devices.

FREE Webinar: Breakthrough Nanotechnology Companies

This talk will highlight several examples that you may not be following of companies with the breakthroughs to drive forward during the recovery.

Adding fluorine to graphene produces flat crystal version of Teflon

Graphene analog of Teflon could lead to ultrafast transistors and high performance materials for aircraft and elsewhere.

Nanotechnology leading toward spin computers

Inserting a nanometer-thick insulating layer on graphene enables spin injection into graphene, a step toward spin computers.

Devices with atomically smooth surfaces could change modern electronics

High-performance metal-insulator-metal (MIM) diodes made possibe by controlling quantum mechanical tunneling through an ultrathin insulator could change modern electronics.

Surface properties of nanoparticles have profound effect on how cells respond

Gold nanoparticles carrying nucleic acids into a cell must have the nucleic acids tightly linked via covalent bonds to avoid profound, unanticipated effects on gene expression.

Request for public comment on National Nanotechnology Initiative's Strategic Plan

US National Nanotechnology Initiative wants your comments on its strategic plan.

Theoretical analysis of powering nanorobots with blood glucose and oxygen

Hogg and Freitas provide a theoretical analysis of the power constraints when nanorobots rely entirely on ambient bloodstream oxygen and glucose and identify aspects of nanorobot design that significantly affect available power.

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