TSMC Hits Major Milestone In 2nm Technology Development

The recently unveiled Apple A14 Bionic is the world’s first mobile chipset based on 5nm process technology. Based on the leaks, all the flagship mobile chipsets launching later this year will be built on the 5nm node. TSMC, the world’s biggest contract chipmaker, has reportedly made a significant breakthrough in the development of the 2nm technology.

TSMC will now be adopting a new multi-bridge channel field-effect transistor (MBCFET) architecture for their 3nm process nodes. It is based on a high-performance gate-all-around (GAA) process which will help in overcoming the physical limitations of the current FinFET process.

TSMC begins 2nm technology development, production begins in 2024

The company first established an R&D team on the 2nm project just last year. According to one of the company’s executives, mass production of the 2nm chips will only begin in 2024. The yield rate of the trial production will reach 90 percent by the

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Global Smart Eyewear Technology Market 2020 Key Business Opportunities, Impressive Growth Rate and Development Analysis to 2025

The MarketWatch News Department was not involved in the creation of this content.

Sep 23, 2020 (CDN Newswire via Comtex) —
Global Smart Eyewear Technology Market 2020 by Company, Type and Application, Forecast to 2025 aimed at strengthening players’ overall growth and offering a strong position in their business, explores facts, events, and possible variations in the market considering regional and global levels. The report contains detailed, accurate research studies that provide an in-depth analysis of global Smart Eyewear Technology market dynamics. The report highlights significant insights about the market involving market size, application, fundamental statistics, market share, and growth factors. The research incorporates an exact competitive assessment of industry players and their valuable strategies during the projected timeframe 2020 to 2025.

The report profoundly evaluated in the report covering scope, profitability, demand status, uncertainties, and development forecast. Then report compiles in-depth analysis on critical subjects of the global Smart

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Cancer Biomarkers Market Development Status, Emerging Technologies, Regional Trends and Comprehensive Research Study 2025

The MarketWatch News Department was not involved in the creation of this content.

Sep 23, 2020 (AmericaNewsHour) —
Market Overview:

The global Cancer Biomarkers Market was valued at USD 10.19 billion in 2016 and is projected to reach USD 28.03billion by 2025, growing at a CAGR of 11.9% from 2017 to 2025.

Cancer Biomarkers have high usage in Cancer diagnostics and treatment, especially in Tissue specific therapies. Therefore market of this genetically engineered product is seeing high values in terms of market value.

The Final Report will cover the impact analysis of COVID-19 on this industry:

Download Sample of This Strategic Report: https://www.kennethresearch.com/sample-request-10008242

Sample Infographics:

Market Dynamics:
1. Market Drivers
1.1 Increasing Technological Developments
1.2 Growingnumber of cancer Patients and usage of biomarkers
1.3 Increasing research in biomarkers
2. Market Restraints
2.1 Reimbursements Risks
2.2 High investment and uncertainty of favorable profits
2.3 Technicality concerns

Market Segmentation:
1. Global Cancer

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A multishot lensless camera in development could aid disease diagnosis

A multishot lensless camera in development could aid disease diagnosis
Schematic of the layout for a lensless camera. Credit: Keating/Liu Labs, Penn State

A new type of imaging that does not require a lens and uses reconfigurable particle-based masks to take multiple shots of an object is being developed by researchers at Penn State. The electric-field directed self-assembling mask technology is expected to have uses in lower-cost and faster disease diagnosis, the enhancement of optical microscopy, and may even lead to thinner cellphone technology.


How it works

The researchers create a mask of microscopic gold wires and place it near the object that will be imaged. The mask scatters the light reflected off the object and an image sensor collects the light. An electric current rearranges the particles in the mask, producing a new mask with every iteration, and the system records each new image. The multiple light captures are then computationally reconstructed into the original object image, resulting in

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Scientists advance the field of precision health with the development of therapeutic artificial cells. — ScienceDaily

New research by an international team of chemists describes a new type of artificial cell that can communicate with other cells within the body — with potential applications in the field of smart pharmaceuticals.

“In the future, artificial cells like this one could be engineered to synthesizes and deliver specific therapeutic molecules tailored to distinct physiological conditions or illnesses — all while inside the body,” explained Sheref Mansy, professor in the University of Alberta’s Department of Chemistry, who co-authored this study in collaboration with researchers at the University of Trento, Italy.

The artificial cells work by detecting changes in their environment within the body. In response, the artificial cell creates and releases a protein signal that influences the behaviour of other cells within the body. “In this way, the changing needs of the host would be rapidly met in a manner that does not flood the entire organism with drug

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