2016 Media Highlights

Carnegie Structure of hydrogen-stuffed, quartz-like form of ice revealed
Phys.org Structure of hydrogen-stuffed, quartz-like form of ice revealed
Advanced Photon Source The Structure of a Hydrogen-Stuffed, Quartz-Like Form of Ice
Twitter Structure of hydrogen-stuffed, quartz-like form of ice revealed
Science Daily New diamond harder than ring bling
ZME Science Australian researchers develop harder-than-diamond artificial diamond
Futurism New Synthetic Diamond Is Harder Than Nearly All Found in Nature
New Atlas Out of this world: Ultra-hard meteorite diamond made in lab
YouTube New Diamond Harder than Ring Bling
SciFeeds Nanocrystalline hexagonal diamond formed from glassy carbon
Twitter Nanocrystalline hexagonal diamond harder than ring bling
Tech Times New Diamond Created From Glassy Carbon Harder Than Jeweler's Diamond, Ideal For Mining Applications
BBC The quest to make a crystal harder than diamonds
Northbridge Times World’s Toughest Synthetic diamond created by Australian National university researchers
Science Daily Forging a brand-new chemical bond using the pressure of the Mars core
Chemistry Views FeBi2 Discovered
Twitter The Discovery of FeBi2
Futurism Scientists Just Made an Entirely New Chemical Bond
Space Daily Forging a brand-new chemical bond using the pressure of the Mars core
Phys.org Forging a brand-new chemical bond using the pressure of the Mars core
Carnegie New material Could Advance Superconductivity
EurekAlert! New material could advance superconductivity
Phys.org New material could advance superconductivity
Science Daily New material could advance superconductivity
e! Science News New material could advance superconductivity
Health Medicinet New material could advance superconductivity
Technobahn New Material Could Advance Superconductivity
Controlled Environments New Material Advances Superconductivity and Fuel Cell Storage
Nanowerk New material could advance superconductivity
Science World Report Mantle Contributes To The Earth's Primitive Atmosphere
Phys.org Buried oxygen rose to the occasion as Earth's early atmosphere formed
Yale News Buried oxygen rose to the occasion as Earth’s early atmosphere formed
Advanced Photon Source Putting the Squeeze on Hydrogen and Sodium for Superconductivity
Carnegie Structure of hydrogen-stuffed, quartz-like form of ice revealed
Phys.org Structure of hydrogen-stuffed, quartz-like form of ice revealed
CDAC Ultrahard C2-BN Nanocomposite
Phys.org Novel method creates important industrial chemicals simply, cheaply
EFree Swapping Sodium in Battery Materials
UAB News Working under pressure: Diamond micro-anvils made by UAB will produce immense pressures to make new materials
DOE Office of Science Working under pressure: Diamond micro-anvils made by UAB will produce immense pressures to make new materials
Carnegie Geochemical detectives use lab mimicry to look back in time
Smithsonian Crushing Pressures Start to Reveal the Truth About Earth’s Core
Deep Carbon Observatory  Pressure-dependent Iron Isotope Fractionation and Light Elements in Earth's Core
Phys.org Geochemical detectives use lab mimicry to look back in time
ScienceDaily Geochemical detectives use lab mimicry to look back in time
Advanced Photon Source Crushing Pressures Start to Reveal the Truth about Earth's Core
YouTube Geochemical detectives use lab mimicry to look back in time
SpaceDaily  Geochemical detectives use lab mimicry to look back in time
Carnegie Rust under pressure could explain deep Earth anomalies
ScienceDaily Rust Under Pressure Could Explain Deep-Earth Anomalies
ScienceNewsline Rust Under Pressure Could Explain Deep-Earth Anomalies
Advanced Photon Source Rust Under Pressure Could Explain Deep-Earth Anomalies
FollowNews Rust under pressure could explain deep Earth anomalies
ParallelState Rust under pressure could explain deep Earth anomalies
Phys.org Rust under pressure could explain deep Earth anomalies
Global News Magazine Rust under pressure could explain deep Earth anomalies
Digital News World Rust under pressure could explain deep Earth anomalies
World Prime Time Rust under pressure could explain deep Earth anomalies
Center for High Pressure Science A new form of iron oxide controls hydrogen and oxygen cycles in the Earth interior
COMPRES Geochemistry: Hydrogen and oxygen in the deep Earth
Argonne Today Ferromagnetic LaCo5
Carnegie / DOE Alliance Center Tantalizing Tantalate Ferroelectrics
Argonne Today Nanofabricated controlled-geometry
Carnegie Science Making sense of metallic glass
All Mag News Making sense of metallic glass
All Science Globe Making sense of metallic glass
eScienceNews Making sense of metallic glass
EurekAlert! Making sense of metallic glass
Geek Journal Making sense of metallic glass
Open Nanofabrication Making sense of metallic glass
NanoWerk Making sense of metallic glass
News Nation Times Making sense of metallic glass
In USA News Making sense of metallic glass
Online News Planet Making sense of metallic glass
Phys.org Making sense of metallic glass
ScienceDaily Making sense of metallic glass
Science Newsline Technology Making Sense of Metallic Glass
Worldwide News Hub Making sense of metallic glass
WorldNews Network Ultrahigh-pressure polyamorphism in GeO2 glass