A ferroelectric material that can gradually evolve due to photons from light pulses striking the material exhibits unexpected adaptive behavior, according to a study published in Advanced Materials by Argonne researchers.
Including microorganisms in biodegradable plasticulture products for farmland is a solution that enables these environmental probiotics to enter the soil as the product degrades, which promotes an increase in crop capacity and efficiency without the need to add chemicals to the soil.
SoFab Inks, a supplier of specialty materials used in perovskite manufacturing, has introduced a new high-performance, low-cost electron transport layer (ETL), designed to enhance the durability and manufacturability of perovskite solar cells.
In a study that was published in ACS Applied Electronic Materials, the research team led by Professor Yang Xiaoping at the Hefei Institutes of Physical Science’s High Magnetic Field Laboratory found a controllable and tunable monoatomic layer two-dimensional electron gas (2DEG) localized at the heterointerface.
In a recent article published in Scientific Reports, researchers evaluated the tribological parameters of aluminum hybrid composites infused with graphite and boron carbide, demonstrating their potential for enhanced hardness and wear resistance.
The National Manufacturing Institute Scotland (NMIS) has welcomed its 100th member with international aerospace leader ATI Inc. joining the University of Strathclyde’s Advanced Forming Research Centre (AFRC) as a Tier One Member, marking the beginning of a collaboration in advanced engineering and materials science that will support sustainable air travel.
Researchers from North Carolina State University have created and demonstrated a method in a study published in Matter that enables them to precisely control the conversion of electrical charge into light at the atomic level in a class of materials known as layered hybrid perovskites (LHPs).
The research team at the Korea Electrotechnology Research Institute’s (KERI) Nano Hybrid Technology Research Center, led by Dr. Daeho Kim and Dr. Jong Hwan Park, has created a novel process technology that allows for the ultrafast, 30-second preparation of hard carbon anodes for sodium-ion batteries using microwave induction heating, according to a study published in the Chemical Engineering Journal.
Researchers from City University of Hong Kong (CityUHK), in collaboration with experts from local and overseas universities, have reshaped scientists’ fundamental understanding of the kinetic processes in crystalline materials, throwing light on new approaches for materials processing and microstructure tailoring.
Researchers from Texas A&M University and Sandia National Laboratories have made significant advancements in a new joining technology called interlocking metasurfaces to improve a structure’s strength and stability compared to more conventional methods like bolts and adhesives.
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