Engineers have harnessed quantum physics to detect the presence of biomolecules without the need for an external light source, overcoming a significant obstacle to the use of optical biosensors in healthcare and environmental monitoring settings.
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Engineers have harnessed quantum physics to detect the presence of biomolecules without the need for an external light source, overcoming a significant obstacle to the use of optical biosensors in healthcare and environmental monitoring settings.
PhD candidate Sabrina Corsetti builds photonic devices that manipulate light to enable previously unimaginable applications, like pocket-sized 3D printers.
Security is essential to NVIDIA's brand. However, with cybersecurity risks rising across the board, including in the verticals they serve, the company was facing the challenge of delivering more secure products without incurring a large increase in development time and cost.
This article explores transistor circuit design for digital design engineers, hardware engineers, and electronics engineering students. Find out the theoretical foundations with practical guidance, enabling you to confidently build and analyze analog and digital transistor circuits.
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Mouser Electronics is a worldwide leading authorized distributor of semiconductors and electronic components.
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Murata is a global solution provider and the market leader in the design, m...
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This article covers every aspect of the Arduino UNO pinout, presenting a technical, pin-by-pin explanation to help readers confidently design, analyze, and implement Arduino-based systems.
This article explores how to read resistor color code correctly, covering the fundamental theory, relevant standards, practical examples, and design-oriented insights, providing practical tips for efficient and accurate circuit prototyping.
Miniature RFID tags by Murata enable seamless system integration with durable, reprogrammable identification — delivering reliable tracking, authentication & traceability beyond the limits of traditional barcodes.
When Industrial Longevity Meets Semiconductor Speed: The Root of Component Obsolescence
How SimpleChips designs high-voltage silicon for systems that must perform reliably over decades?
In this episode, we talk about the engineers that built a wireless tag that detects and remembers overheating without a chip or a battery, enabling cold-chain monitoring without creating electronic waste.
By stacking multiple active components based on new materials on the back end of a computer chip, this new approach reduces the amount of energy wasted during computation.
Focused laser-like light that covers a wide range of frequencies is highly desirable for many scientific studies and for many applications, for instance quality control of manufacturing semiconductor electronic chips.
Engineers have harnessed quantum physics to detect the presence of biomolecules without the need for an external light source, overcoming a significant obstacle to the use of optical biosensors in healthcare and environmental monitoring settings.
3 minutes read
PhD candidate Sabrina Corsetti builds photonic devices that manipulate light to enable previously unimaginable applications, like pocket-sized 3D printers.
Security is essential to NVIDIA's brand. However, with cybersecurity risks rising across the board, including in the verticals they serve, the company was facing the challenge of delivering more secure products without incurring a large increase in development time and cost.
Electrodes coated with DNA could enable inexpensive tests with a long shelf-life, which could detect many diseases and be deployed in the doctor's office or at home.
In this episode, we explore a novel glucose-powered sensor patch that enhances the safety and precision of cancer diagnosis and treatment. Discover how this smart, sugar-infused technology enables non-invasive monitoring and paves the way for safer, more effective medical care.
10 minutes read
This article explores the future of JFET technology in a world increasingly defined by sensor proliferation, distributed intelligence, and hybrid analog-digital systems.
Flexible printed batteries, highly customizable in size and shape, are the future. Learn more about the technologies enabling these innovative energy storage devices and their latest use cases.
Discover How to Protect High-Power USB-C Designs from ESD and Surge Damage.
PCB etching is a chemical process that removes copper to form circuits. This guide covers fast etchants, FeCl₃ reactions, AI-driven optimization, aerospace standards, and sustainable methods for high-density PCBs in 5G and medical applications.
The EIT series encompasses a range of technologies, with each installment focusing on specific engineering challenges and how sensor integration, power optimization, and design-for-sustainability principles are reimagining sustainable electronics from the ground up.
Learn how to wire a potentiometer in various configurations (voltage divider, rheostat, sensor) with this in-depth guide. We cover various potentiometer types, provide step-by-step wiring instructions, offer circuit design tips, highlight common mistakes, and include real-world examples.
Scientists at ITMO have come up with a new way to protect microelectronics devices from counterfeit. The new technology is based on gold and silicon nanoparticles with unique optical properties that make it possible to create unclonable functions with a record information density.
3 minutes read
This paper explores why JFETs continue to be the interface of choice for high-impedance sensor design where fidelity and low noise are paramount.
Photonic integrated circuits are enabling smarter, faster, and more sustainable environmental monitoring.
Polymer glass transition temperature (Tg) refers to the temperature at which an amorphous polymer transitions from a glassy, rigid state to a rubbery, flexible state. Understanding the polymer glass transition temperature is crucial for various industries, including engineering and manufacturing.
