Graphene papers provide chemical and mechanical stability, high thermal conductivity and low electrical resistance in the development of personal thermal management systems.
Results for "computers"
Image-based Computational Fluid Dynamics in the Lung: Virtual Reality or New Clinical Practice?
Image-based computational fluid dynamics (CFD) predicts airflow in the lungs, providing more sensitive biomarkers of how well your lungs are working.
Organic–Inorganic Interface Simulation for New Material Discoveries
An overview of the viability of different molecular simulation methods and interface force fields, the recent advances in the simulation of protein-surface interactions, and the challenges posed by the current simulation methods to reproduce the exact phenomenon.
“Chalcostibite” Solar Cells
High-throughput combinatorial experiments reveal current/voltage trade-offs in chalcostibite thin film solar cells.
Direct Observation of Negative Capacitance in Ferroelectric Materials
Recently, negative capacitance was first demonstrated in epitaxial ferroelectric lead zirconate titanate, proving that a direct measurement of the phenomenon is possible.
Flexible dye-sensitized solar cell photoanodes
Scientists from Singapore and China have developed flexible titanium dioxide photoanodes with a multilayered structure.
Topological phase transitions: 2016 Nobel Prize in Physics
The Royal Swedish Academy of Sciences has decided to award the Nobel Prize in Physics 2016 with one half to David J. Thouless and the other half to F. Duncan M. Haldane and J. Michael Kosterlitz for theoretical discoveries of topological phase transitions and topological phases of matter.
Flexible and stretchable devices special issue
The state-of-the-art of flexible and stretchable devices is highlighted in this special issue of Advanced Materials.
ACS COMP/Wiley Outstanding Undergraduate Research Poster Prize Winners
The ACS Division of Computers in Chemistry presented poster awards at the 251st American Chemical Society National Meeting & Exposition.
2D Materials – Beyond Silicone and Graphene
Michael Bojdys introduces a new class of two-dimensional polymeric materials for semiconductors.
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