Detecting manipulations in microchips
Attackers have the ability not only to manipulate software, but also to tamper with the hardware. A team from Bochum is devising methods to detect such tampering.
Mar 20, 2023
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79
Hardware
News tagged with electron microscope
Engineering
Scientists illuminate barrier to next-generation battery that charges very quickly
New lithium metal batteries with solid electrolytes are lightweight, inflammable, pack a lot of energy, and can be recharged very quickly, but they have been slow to develop due to mysterious short circuiting and failure. ...
Jan 30, 2023
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933
Electronics & Semiconductors
Stability of perovskite solar cells reaches next milestone
Perovskite semiconductors promise highly efficient and low-cost solar cells. However, the semi-organic material is very sensitive to temperature differences, which can quickly lead to fatigue damage in normal outdoor use. ...
Jan 27, 2023
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73
Energy & Green Tech
Researchers decipher atomic-scale imperfections in lithium-ion batteries
As lithium-ion batteries have become a ubiquitous part of our lives through their use in consumer electronics, automobiles and electricity storage facilities, researchers have been working to improve their power, efficiency ...
Jan 26, 2023
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46
Engineering
Comprehensive performance evaluation of electron microscopes empowers local companies in Korea
Korea Research Institute of Standards and Science (KRISS, President Hyun-Min Park) has succeeded in developing a high-performance energy analyzer, which is a key technology for determining the performance of electron microscopes. ...
Jan 20, 2023
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3
Energy & Green Tech
Making materials for the next generation of electric car batteries
As drivers around the world switch to electric cars, new batteries that can store more energy, translating to longer driving distances before a car needs recharging, can't come soon enough. But researchers at NTNU have discovered ...
Apr 26, 2022
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7
Energy & Green Tech
Pivotal battery discovery could impact transportation and the grid
Battery-powered vehicles have made a significant dent in the transportation market. But that market still needs lower cost batteries that can power vehicles for greater ranges. Also desirable are low-cost batteries able to ...
Mar 24, 2022
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95
Energy & Green Tech
How X-rays can make better batteries
Over a three-month period, the average car in the U.S. produces one metric ton of carbon dioxide. Multiply that by all the gasoline-powered cars on Earth, and what does that look like? An insurmountable problem.
Mar 7, 2022
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18
Software
Artificial intelligence magnifies the utility of electron microscopes
With resolution 1,000 times greater than a light microscope, electron microscopes are exceptionally good at imaging materials and detailing their properties. But like all technologies, they have some limitations.
Dec 17, 2021
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173
Electronics & Semiconductors
Study explores the degradation mechanisms in Cu2O photoelectrodes for CO2 reduction
The efficient and large-scale conversion of carbon dioxide into fuels or other valuable substances could help to address the current energy crisis and mitigate the effects of global warming. One of the most effective approaches ...
Electron microscope
An electron microscope is a type of microscope that uses a particle beam of electrons to illuminate a specimen and create a highly-magnified image. Electron microscopes have much greater resolving power than light microscopes that use electromagnetic radiation and can obtain much higher magnifications of up to 2 million times, while the best light microscopes are limited to magnifications of 2000 times. Both electron and light microscopes have resolution limitations, imposed by the wavelength of the radiation they use. The greater resolution and magnification of the electron microscope is because the wavelength of an electron; its de Broglie wavelength is much smaller than that of a photon of visible light.
The electron microscope uses electrostatic and electromagnetic lenses in forming the image by controlling the electron beam to focus it at a specific plane relative to the specimen. This manner is similar to how a light microscope uses glass lenses to focus light on or through a specimen to form an image.
This text uses material from Wikipedia, licensed under CC BY-SA
