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UCLA user facility offers new materials characterization tool for electron microscopy
May 17, 2024
The ability to identify the orientation and phase of a sample’s crystal structure can provide vital information for researchers designing, fabricating and testing new materials. UCLA’s Materials Structure Characterization Laboratory (MSCL) opens that capability through the addition of an electron backscatter diffraction (EBSD) system.
Guo looking for answers behind semiconducting material properties
May 17, 2024
Metal halide perovskites have emerged in recent years as a low-cost, highly efficient semiconducting material for solar energy, solid-state lighting and more. Despite their growing use, a fundamental understanding of the origins of their outstanding properties is still lacking. A Husker scientist is aiming to find answers that could lead to the development of new materials and new applications.
Researchers Unlock Vital Insights into Metal-Nitrogen-Carbon Catalysts' Reaction Mechanism
May 17, 2024
A team of researchers has made significant strides in understanding metal-nitrogen-carbon (M-N-C) catalysts, offering alternatives to expensive platinum-group-metal (PGM) catalysts and a pathway to a greener future.
Dec 12, 2024
The Spectrum of Stem Cell-Based Neuronal Models and Their Fit for Purpose (Online)
Mar 25, 2025
Aachen, Germany
Aachen Metrology Days 2025 (Workshop)
Sep 22, 2025
Singapore
9th Nano Today Conference
May 7, 2025
Melbourne VIC, Australia
ELECTRONEX 2025
Jun 24, 2025
Santa Clara, CA, USA
Sensors Converge
Apr 21, 2025
Lisbon, Portugal
International Nanotechnology & Advanced Materials Experts Meet (NANO MAT 2025)
Dec 11, 2024
Ho Chi Minh City, Vietnam
ASEAN Ceramics Vietnam 2024
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Quantum materials through the nano-lens: surprises beyond the diffraction limit
Explore how nano-spectroscopy is reshaping the study of quantum materials. In this on-demand session, Prof. Alexander McLeod presents cutting-edge research using nano-scale optical probes to examine phenomena like collective excitations in 2D materials and phase competition in correlated electron systems. This session highlights the integration of optical nano-probes with traditional optics, breaking free from the diffraction limit to enable unprecedented spatial and temperature resolution.
On demand
Online
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