Semiconductors are often associated with rigid silicon wafers etched with intricate circuits, powering everything from computers to smartphones. However, a new frontier in semiconductor technology is challenging this image, shifting from rigid silicon to a more versatile, adaptable, and organic solution: soft semiconductors. This emerging field holds transformative potential for wearable technology, medical implants, environmental sensors, and even "smart" skin that could enable robots to sense touch.
As demand for wearable, adaptable, and biocompatible devices grows, soft semiconductors are poised to address the limitations of traditional circuits, though challenges in performance, stability, and manufacturing still lie ahead. This shift from rigid to resilient materials is both necessary and inevitable, driven by rapid advancements in materials science and device engineering. Soft semiconductors promise to redefine electronics, making them more intimate, adaptive, and integrated into daily life, bringing us closer to a world where technology becomes a seamless part of our existence.
What defines soft semiconductors?
Soft semiconductors are materials that exhibit semiconductor properties but, unlike traditional silicon, are inherently flexible and stretchable. These materials are typically polymers, organic molecules, or even some forms of hybrid inorganic-organic compounds. They can be moulded, bent, and stretched without losing their electrical conductivity or functionality, making them ideal for applications where traditional, rigid semiconductors fall short.
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Denne historien er fra December 2024-utgaven av Electronics For You.
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TRULY INNOVATIVE ELECTRONICS -INNOVATION UPDATES
Amongst numerous press releases of new products received by us, these are the ones we found worthy of the title Truly Innovative Electronics
Elastomer enhancing smart wearable performance
A high-tech, flexible wearable device made from the innovative elastomer material
Nanotechnology based noninvasive cancer diagnostics
Nanoflake sensors built from indium oxide with platinum and nickel detect changes in isoprene
Space communication with silent amplifiers
In the new communication system from researchers at Chalmers University of Technology, in Sweden, a weak optical signal (red) from the spacecraft's transmitter can be amplified noisefree when it encounters two so-called pump waves (blue and green) of different frequencies in a receiver on Earth.
Advancements in TOPCon solar cells
The structure and performance of tandem devices with highly passivated TOPCon bottom cells
Quantum leap in magnetism refines superconductors
Rice University physicists have uncovered key magnetic and electronic properties in kagome magnets, structures resembling basket-weaving patterns.
Sensor targets food antioxidants
A research team from Hunan City University and Xiangtan University in China has developed a sensor for detecting TBHQ, a food antioxidant used in oils and fats, addressing health concerns at high concentrations.
Data sensing with repurposed RFID tags
UC San Diego researchers have advanced passive data collection with a breakthrough in battery-free sensing.
Seal-inspired sensors to safeguard offshore wind farms
Schematic structure of the seal whisker-inspired flow sensors
Artificial nose identifies scents accurately
Artificial nose identifies scents accurately
