Current Silicon Carbide News and Events

Current Silicon Carbide News and Events, Silicon Carbide News Articles.
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Terahertz imaging of graphene paves the way to industrialisation
X-ray scans revolutionised medical treatments by allowing us to see inside humans without surgery. Similarly, terahertz spectroscopy penetrates graphene films allowing scientists to make detailed maps of their electrical quality, without damaging or contaminating the material. The Graphene Flagship brought together researchers from academia and industry to develop and mature this analytical technique, and now a novel measurement tool for graphene characterisation is ready. (2021-02-23)

The perfect recipe for efficient perovskite solar cells
A long-cherished dream of materials researchers is a solar cell that converts sunlight into electrical energy as efficiently as silicon, but that can be easily and inexpensively fabricated from abundant materials. Scientists at the Helmholtz-Zentrum Berlin have now come a step closer to achieving this. (2021-02-22)

A sharper look at the interior of semiconductors
A research team at Friedrich Schiller University Jena (Germany) developed a high-resolution imaging method based on extreme short-wave UV light. It can be used to examine internal structures in semiconductors non-destructively, and with nanometre precision as the team reported in the current issue of the journal 'Optica'. (2021-02-16)

Move over heavy goggles, here come the ultra-high refractive index lenses
POSTECH professor Junsuk Rho's research team develops a transparent silicon without visible light loss by controlling the silicon atomic structure. (2021-02-14)

Vibrating 2D materials
Two-dimensional materials hold out hope for many technical applications. An international research team now has determined for the first time how strongly 2D materials vibrate when electronically excited with light. (2021-02-11)

Wafer-scale production of graphene-based photonic devices
Graphene Flagship researchers have devised a wafer-scale fabrication method that paves the way to the next generation of telecom and datacom devices. (2021-02-11)

Silicon chip provides low cost solution to help machines see the world clearly
Researchers in Southampton and San Francisco have developed the first compact 3D LiDAR imaging system that can match and exceed the performance and accuracy of most advanced, mechanical systems currently used. (2021-02-10)

A scalable method for the large-area integration of 2D materials
Graphene Flagship researchers report a new method to integrate graphene and 2D materials into semiconductor manufacturing lines, a milestone for the recently launched 2D-EPL project. (2021-02-10)

A new modifier increases the efficiency of perovskite solar cells
The research team of NUST MISIS has presented an improved structure of perovskite solar cells. Scientists have modified perovskite-based solar cells using MXenes -- thin two-dimensional titanium carbides with high electrical conductivity. The MXenes-based modified cells showed superior performance, with power conversion efficiency exceeding 19% (the reference demonstrated 17%) and improved stabilized power output with respect to reference devices. The results have been published in the Nano energy international scientific journal. (2021-02-09)

Silicon waveguides move us closer to faster, light-based logic circuits
IBM researchers have succeeded in guiding visible light through a silicon wire efficiently, an important milestone in the exploration towards a new breed of faster, more efficient logic circuits. (2021-02-08)

Silicon anode structure generates new potential for lithium-ion batteries
New research has identified a nanostructure that improves the anode in lithium-ion batteries. Instead of using graphite for the anode, the researchers turned to silicon: a material that stores more charge but is susceptible to fracturing. The team deposited silicon atoms on top of metallic nanoparticles to form an arched nanostructure, increasing the strength and structural integrity of the anode. Electrochemical tests showed the batteries had a higher charge capacity and longer lifespan. (2021-02-05)

Packing more juice in lithium-ion batteries through silicon anodes and polymeric coatings
Although silicon anodes could greatly boost the capacity of Li-ion batteries, their performance rapidly degrades with use. Polymeric coatings can help solve this problem, but very few studies have explored the underlying mechanisms. In a recent study, scientists from Japan Advanced Institute of Science and Technology investigate how a poly(borosiloxane) coating greatly stabilizes the capacity of silicon anodes, paving the way for better and more durable Li-ion batteries for electric cars and renewable energy harvesting. (2021-02-05)

Polymer-derived carbon as metal-free, "green" alternative to catalysts and nano carbons
Darmstadt, February 4, 2021. The research group of Professor Bastian Etzold at the Department of Chemistry at TU Darmstadt has succeeded in synthesizing macroscopic carbons that are similar in handling to common technical catalysts. The research team has now published its results in the renowned journal Angewandte Chemie and demonstrated that these carbons can achieve the high catalytic activity and selectivity that otherwise only nanocarbons can. (2021-02-04)

Some food contamination starts in the soil
Rice husk residue can prevent uptake of harmful elements in rice. (2021-02-03)

Tiny 3D structures enhance solar cell efficiency
A new method for constructing special solar cells could significantly increase their efficiency. Not only are the cells made up of thin layers, they also consist of specifically arranged nanoblocks. This has been shown in a new study by an international research team led by the Martin Luther University Halle-Wittenberg (MLU), which was published in the scientific journal ''Nano Letters''. (2021-02-02)

Fine tuned: adjusting the composition and properties of semiconducting 2D alloys
Semiconducting 2D alloys could be key to overcoming the technical limitations of modern electronics. Although 2D Si-Ge alloys would have interesting properties for this purpose, they were only predicted theoretically. Now, scientists from Japan Advanced Institute of Science and Technology have realized the first experimental demonstration. They have also shown that the Si to Ge ratio can be adjusted to fine tune the electronic properties of the alloys, paving the way for novel applications. (2021-02-02)

Biosensors require robust antifouling protection
Some promising biosensors and medical devices work well within pristine laboratory environments but may stop working once exposed to real-world conditions. A thick layer of foulants will quickly cover biosensors, and there is no good way to revive them once they quit working. Essentially, a biosensor is only as good as its antifouling properties. In APL Materials, researchers review a variety of approaches developed to combat fouling. (2021-02-02)

Advanced measurement technology for future semiconductor devices
A team of researchers led by Osaka University investigated beta-gallium oxide (β-Ga2O3), an emerging semiconductor for next-generation power devices, using an advanced method involving terahertz waves -- the technology that could replace conventional yet invasive electrical semiconductor characterizations. (2021-01-25)

New metamaterial offers reprogrammable properties
EPFL scientists have developed a metamaterial whose mechanical properties can be reprogrammed on demand and whose internal structure can be modified by applying a magnetic field. (2021-01-20)

Curtin find could slash energy use and cost in making silicon
Curtin University researchers have uncovered a method of making silicon, found commonly in electronics such as phones, cameras and computers, at room temperature. (2021-01-20)

Towards applications: ultra-low-loss on-chip zero-index materials
Dirac-cone materials behave like an isotropic and impedance-matched zero-index medium at Dirac-point wavelength, enabling light-matter interactions in a spatially uniform optical mode with arbitrary shapes. However, such interactions are limited to small areas because of the propagation loss. Scientists designed an ultra-low-loss and homogeneous zero-index material by introducing resonance-trapped bound states in the continuum. This design paves the way for leveraging perfect spatial coherence of large-area zero-index materials in linear, nonlinear, and quantum optics (2021-01-14)

Nanosheet-based electronics could be one drop away
A surprisingly simple method improves 'drop casting' fabrication of tiled nanosheets that could be used in next-generation electronic devices. All you need is a pipette and a hotplate. (2021-01-12)

No disassembly required: Non-destructive method to measure carrier lifetime in SiC
To develop high-voltage devices made with silicon carbide (SiC), a common semiconducting material, it is necessary to understand its charge carrier lifetime distribution within thick layers. However, available carrier lifetime measurement methods involve the destruction of the sample. Fortunately, in a recent study at Nagoya Institute of Technology, Japan, scientists have developed a novel non-destructive technique with enhanced depth resolution, which will bolster the development of efficient SiC devices for power generation and distribution systems. (2021-01-12)

UCI scientists measure local vibrational modes at individual crystalline faults
Employing newly developed electron microscopy techniques, researchers at the University of California, Irvine and other institutions have, for the first time, measured the spectra of phonons - quantum mechanical vibrations in a lattice - at individual crystalline faults, and they discovered the propagation of phonons near the flaws. The team's findings are the subject of a study published recently in Nature. (2021-01-12)

Old silicon learns new tricks
Researchers from Nara Institute of Science and Technology fabricated regular arrays of iron-coated silicon crystals that are atomically smooth. The defect-free pyramidal composition of the crystals impart magnetic properties that will enhance the functionality of 3D spintronics and other technologies. (2021-01-06)

Putty-like composites of gallium metal with potential for real-world application
Researchers at the Institute for Basic Science (IBS) created a novel functional composite of gallium with putty or paste-like physical properties. The composite possesses excellent electromagnetic shielding properties as well as thermal conductivity. (2021-01-01)

Chemists synthesize 'flat' silicon compounds
Chemists at the University of Bonn (Germany) have synthesized extremely unusual compounds. Their central building block is a silicon atom. Different from usual, however, is the arrangement of the four bonding partners of the atom, which are not in the form of a tetrahedron around it, but flat like a trapezoid. This arrangement is usually energetically extremely unfavorable, yet the molecules are very stable. The results appear in the Journal of the American Chemical Society. (2020-12-22)

Scientists suggested a method to improve performance of methanol fuel cells
Fuel cells based on methanol oxidation have a huge potential in the motor and technical industries. To increase their energy performance, scientists suggest using electrodes made of thin palladium-based metallic glass films. A group of researchers from Far Eastern Federal University (FEFU), Austria, Turkey, Switzerland, and the UK has developed a new metallic glass for this application. The results were reported in the Nanoscale journal. (2020-12-22)

Scientists develop an efficient way to produce low-cost heatsinks
NUST MISIS scientists found a way to reduce the cost of industrial and electronics heatsinks production up to 10 times. Consequently, the product itself would also cost less. The proposed methods presume the use of rubbers and silicon carbide as components, i.e. these components are mixed, pressed and sintered. The article on the research is published in Polymers. (2020-12-21)

Goldilocks and the three quantum dots: Just right for peak solar panel performance
Maximizing the efficiency of renewable energy technology is dependent on creating nanoparticles with ideal dimensions and density, new simulations have shown. (2020-12-20)

Researchers develop Si-based super-high frequency nanoelectromechanical resonator
Recently, a group led by Prof. GUO Guoping from the University of Science and Technology of China of the Chinese Academy of Sciences, collaborating with Prof. ZHANG Zhen's group from Uppsala University, Sweden, designed and fabricated CMOS-compatible suspended SHT devices which worked as super-high frequency nanoelectromechanical resonators. The work was published in Advanced Materials. (2020-12-15)

Perovskite/silicon tandem solar cells on the magic threshold of 30% efficiency
An HZB team has published a report in the journal Science on the development of its current world record of 29.15% efficiency for a tandem solar cell made of perovskite and silicon. The tandem cell provided stable performance for 300 hours - even without encapsulation. To accomplish this, the group headed by Prof. Steve Albrecht investigated physical processes at the interfaces to improve the transport of the charge carriers. (2020-12-10)

Beating the heat: Oxidation in novel coating material for aircraft gas turbine engines
Ytterbium silicide (Yb-Si) is a promising coating material for the high-temperature sections of aircraft gas turbine engines. Although Yb-Si is heat-resistant and prevents formation of structurally harmful SiO2 in the coating, its oxidation mechanisms are unclear. In a recent study, scientists from Japan demonstrate how the Yb to Si ratio in the material, and the surrounding atmosphere, affect the oxidation processes in Yb-Si, opening doors to more energy efficient gas turbines. (2020-12-09)

Discovery suggests new promise for nonsilicon computer transistors
An alloy material called InGaAs could be suitable for high-performance computer transistors, according to MIT researchers. If operated at high-frequencies, InGaAs transistors could one day rival those made of silicon. (2020-12-09)

New testing system could become the IoT of photovoltaics
New Suns Voc testing measures system voltage as a function of light intensity in outdoor setting, enabling real-time performance measurement and diagnostics (2020-12-04)

New lab-on-a-chip infection test could provide cheaper, faster portable diagnostics
A tiny new silicon-based lab-on-chip test could pave the way for cheap handheld infectious disease testing. (2020-12-02)

Having it both ways: a combined strategy in catalyst design for Suzuki cross-couplings
cientists at Tokyo Institute of Technology (Tokyo Tech) have designed a novel catalyst for the Suzuki cross-coupling reaction, which is widely used in the synthesis of industrial and pharmaceutical organic chemicals. Their strategy of loading an intermetallic Pd compound onto a support sharing the same element yields a stable and cost-effective catalyst that outperforms commercially available alternatives. (2020-12-02)

The new generation solar, developed by TalTech, cells contribute to the green revolution
The European Union is determined to undertake a major reform known as the European Green Deal. The biggest changes will take place in the energy production sector, which stands on the brink of a complete transition to renewable energy sources, including solar energy. To boost the power output of solar cells to a terawatt-scale, technologies that leave a smaller ecological footprint, are more efficient and offer a wider range of applications need to be developed alongside with the first-generation silicon-based solar cells. (2020-12-01)

Hitting the quantum 'sweet spot': Researchers find best position for atom qubits in silicon
Australian researchers have located the 'sweet spot' for positioning qubits in silicon to scale up atom-based quantum processors. (2020-11-30)

Electronic skin has a strong future stretching ahead
Soft, stretchy, slimline and strong electronics could accelerate the arrival of artificial skin. (2020-11-27)

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