The British "Nature" magazine released on the 4th an important result of electronic engineering: a new energy-efficient, high-storage nanoelectronics system that can integrate input/output, computing and data storage capabilities on a three-dimensional chip. The system is not only compatible with the existing silicon-based circuits, but more importantly, it can help people break through the major bottleneck in the computer field. Data needs to be switched between the memory outside the chip and the logic circuit on the chip.

The three-dimensional nanoelectronic system model proposed by Max Schulacker, a researcher at the Massachusetts Institute of Technology and colleagues, innovatively combines carbon nanotube sensors with the application of emerging memory technology called variable resistive memory (RRAM). Transistors, as well as traditional silicon circuits. Therefore, it can capture large amounts of data from the outside world, store and process this data, and finally output precisely processed information, all of which are completed in the same chip.

To give people a better understanding of their new system, the authors of the paper showed how they can perceive different gases and vapors (including pure nitrogen and lemon juice, steam from vodka and beer), and how to store sensor data. Over 1 million variable resistive memory elements, and categorized with carbon nanotube logic operations.

The advent of this system is thought to make the "core" out of blue and blue. In related news and opinion articles, Sheriff Lida, a scientist at Brown University in the United States, pointed out that this technology can eventually help develop important applications, such as embedded smart cameras with high-performance artificial intelligence and the ability to "swim" in blood vessels. "And intelligent robots that deliver drugs, even artificial retinas." (Reporter Zhang Mengran)

Nickel And Nickel Alloys

Nickel is a versatile, highly corrosion resistant element that will alloy with most metals. Due to its corrosion resistance, nickel is used to maintain product purity in the processing of foods and synthetic fibers. It is highly resistant to various reducing chemicals and is unexcelled in resistance to caustic alkalies. In addition, nickel has good thermal, electrical and magnetostrictive properties. Relatively high thermal conductivity of this metal has lead to its frequent use for heat exchangers

Commercially pure or low-alloy nickel may contain very small amounts of alloying elements to absolutely none. By contrast nickel alloys contain significant amounts of added elements. Nickel and nickel alloys are both non-ferrous metals that are useful in a range of applications, most of which involve corrosion resistance and/or heat resistance.

Nickel Alloy alternatives to trademark [brand" names.

Alloy C276 alternative to Hastelloy C-276 and Hastelloy C
Alloy B-2 alternative to Hastelloy B-2
Alloy C-22 alternative to Hastelloy C-22
Alloy X alternative to Hastelloy X and Inconel HX
Alloy 20 alternative to Carpenter 20 and Incoloy 20
Alloy718 alternative to Inconel 718
Alloy 800 alternative to Incoloy 800
Alloy 800H/HT alternative to Incoloy 800H/HT
Alloy 400 alternative to Monel 400
Alloy K-500 alternative to Monel K-500
Alloy 625 alternative to Inconel 625
Alloy 600 alternative to Inconel 600
Alloy 601 alternative to Inconel 601

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