Related Awards # 1235881 Convective Thermal Transport at Superhydrophobic Surfaces # 1066426 Investigation of icephobic behavior of surfaces with tunable properties # 1331817 STTR Phase I: STTR Proposal on Atmospheric Water Capture using
Advanced Nanomaterials # 1066356 Turbulent Flow Drag Reduction Using Surfaces Exhibiting Superhydrophobicity and Riblets # 1235867 Collaborative Research: A Micropatterned Wettability Approach for Superior Boiling Heat Transfer Performance # 0952564 CAREER: Fundamental Studies of Condensation Phenomena on Heterogeneous and Hierarchical Nanoengineered Surfaces
«What we've produced is a highly active, highly selective (producing almost pure methane without side products) and stable catalyst that will run on solar energy,» says project leader Professor Christian Doonan, Director of the University's Centre for
Advanced Nanomaterials.
Not exact matches
Staff from Brookhaven's new Center for Functional
Nanomaterials (CFN) describe how this
advanced facility will focus on the development and understanding of nanoscale materials.
The annual Joint National Synchrotron Light Source and Center for Functional
Nanomaterials Usersâ $ ™ Meeting presents new research results and
advances in experimental capabilities in synchrotron radiation and nanosciences.
During the 507th Brookhaven Lecture, Dong Su explains how he and his colleagues are using
advanced tools at the Center for Functional
Nanomaterials at Brookhaven Lab to study materials and determine how different atomic - level structures can improve performance for rechargeable batteries.
This is crucial to developing
advanced applications for 2D and other
nanomaterials.»
CeO2 Nanoparticles Dispersion
Nanomaterials are being applied across a wide range of high - tech industries and
advanced technologies due to their excellent optical, magnetic, catalytic and electronic properties.
Hollingsworth's breakthrough discovery of «giant» NQDs removed the
nanomaterial's problematic photophysical phenomenon of «blinking» and provided an exciting test bed for
advancing the understanding of semiconductor physics in the quantum confinement regime.
Nanomaterials with
advanced functional properties can enable unconventional transistor architectures and devices that exceed the sensitivity of the human skin, as Wenzhuo Wu told nanotechweb.org at innoLAE 2018 in Cambridge, UK.
The highly efficient
advance is made possible in part through the use of
nanomaterials that significantly reduce the amount of energy required in the catalytic process to make the crude oil.