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Press Release Update

2018.05.23

Superconducting Solder Joint for Rare Earth Oxide Superconducting Wires

—The New Technique May Expedite the Development of Powerful Electromagnets Operated in Persistent Current Mode—
2018.05.23

NIMS Inorganic Material Database “AtomWork-Adv” Made Available to the Public (Fee-Based Service)

—Data Download and Search Capabilities to Facilitate Data-Driven Materials Development—
2018.05.22

Observation of the anisotropic magneto-Peltier effect: Temperature of Magnetic Materials Can be Manipulated through Simple Redirection of Charge Current

—Novel Heating/Cooling Function Demonstrated Using a Single Magnetic Material without Junction Structure—
2018.05.14

Successfully Confirmed the Highly Stable Cycling Performance of Nanoporous, Amorphous Silicon Anodes for All-Solid-State Lithium Batteries

—The Confirmation is a Scientific Breakthrough that may Contribute to Dramatic Prolongation of the Cruising Distance of Electric Vehicles on a Single Charge—
2018.04.23

Discovery of Decoupling Phenomena in a Quantum Spin Liquid

—Spins Isolated from a Lattice at Extremely Low Temperatures and in Strong Magnetic Fields—
2018.04.05

NIMS Issues New Data Sheets

—Six New Data Sheets Released, including Creep Strength Properties of Heat-Resistant Steels Subjected to Constant Load for over 100,000 Hours—
2018.02.14

Iron-Corroding Bacteria Shown to Possess Enzymes Enabling Them to Extract Electrons from Extracellular Solids

—Discovery May Facilitate the Development of Environmental-Friendly Anti-biocorrosion Measures, Such as Enzyme-Targeted Chemicals—
2018.02.06

NIST and NIMS Sign a Letter of Intent of Understanding on Research Exchange

—Collaboration Will Promote Materials Development Globally by Facilitating Efficient Data Utilization—
2018.02.01

Determining the Electronic State of a 1111-Type Compound, a Parent Compound of Iron-Based Superconductors

—Our findings, including the Existence of Dirac Electrons, May Facilitate Investigation of the Origins of Superconductivity in Iron-Based Materials and Development of Novel Devices—
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