Research  Mimicking bio processes using synthetic neurons + Recyclable alternative to plastics

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From bowling balls to hip joints: Chemists create recyclable alternative to durable plastics
https://www.eurekalert.org/news-releases/1072210

INTRO: Cornell University researchers have developed a recyclable alternative to a durable class of plastics used for items like car tires, replacement hip joints and bowling balls.

Known as thermosets, this type of plastic boasts a “crosslinked polymer” chemical structure that guarantees longevity but has also made these petrochemical-based materials – which comprise 15%-20% of all polymers produced – impossible to recycle.

“Currently, zero percent of the world’s thermoset materials are recycled – they’re either incinerated or thrown in landfills,” said Brett Fors, professor of chemistry and chemical biology at Cornell.

The Fors lab has addressed that environmental challenge by creating an alternative made from a bio-sourced material that has crosslinked thermosets’ durability and malleability but can be easily recycled and degraded.

“The whole process, from creating to reusing, is more environmentally friendly than current materials,” said Reagan Dreiling, a doctoral student in the field of chemistry and first author of the paper, which published in Nature... (MORE - details, no ads)


Scientists ‘mimic real biological processes’ using synthetic neurons
https://news.northwestern.edu/stories/20...rons/?fj=1
  • Artificial neuron has 50 times broader frequency range than past models
  • Using engineered tactile receptors and synapses, scientists demonstrate first complete artificial sensing system
  • Organic chemistry, bioelectronics, wearable devices, intelligent robotics, health care technology all stand to benefit from research
PRESS RELEASE: Artificially engineered biological processes, such as perception systems, remain an elusive target for organic electronics experts due to the reliance of human senses on an adaptive network of sensory neurons, which communicate by firing in response to environmental stimuli.

A new collaboration between Northwestern University and Georgia Tech has unlocked new potential for the field by creating a novel high-performance organic electrochemical neuron that responds within the frequency range of human neurons. They also built a complete perception system by designing other organic materials and integrating their engineered neurons with artificial touch receptors and synapses, which enabled real-time tactile signal sensing and processing.

The research, described in a paper published this month in the journal Proceedings of the National Academy of Sciences (PNAS), could move the needle on intelligent robots and other systems currently stymied by sensing systems that are less powerful than those of a human.

“The study highlights significant progress in organic electronics and their application in bridging the gap between biology and technology,” said first author Yao Yao, a Northwestern engineering professor. “We created an efficient artificial neuron with reduced footprint and outstanding neuronal characteristics. Leveraging this capability, we developed a complete tactile neuromorphic perception system to mimic real biological processes.”

According to corresponding author Tobin J. Marks, Northwestern’s Charles E. and Emma H. Morrison Professor of Chemistry in the Weinberg College of Arts and Sciences, existing artificial neural circuits tend to fire within a narrow frequency range.

“The synthetic neuron in this study achieves unprecedented performance in firing frequency modulation, offering a range 50 times broader than existing organic electrochemical neural circuits,” Marks said. “In contrast, our device’s outstanding neuronal characteristics establish it as an advanced achievement in organic electrochemical neurons.”

Marks is a world leader in the fields of organometallic chemistry, chemical catalysis, materials science, organic electronics, photovoltaics and nanotechnology. He is also a professor of Materials Science and Engineering and Professor of Chemical and Biological Engineering in Northwestern’s McCormick School of Engineering and as Professor of Applied Physics. His co-corresponding author Antonio Facchetti, a professor at Georgia Tech’s School of Materials Science and Engineering, also serves as an adjunct professor of chemistry at Northwestern.

“This study presents the first complete neuromorphic tactile perception system based on artificial neurons, which integrates artificial tactile receptors and artificial synapses,” said Facchetti. “It demonstrates the ability to encode tactile stimuli into spiking neuronal signals in real time and further translate them into post-synaptic responses.”

The team spanned departments and schools, with researchers who specialized in organic synthesis creating advanced materials that electronic device researchers then incorporated into circuit design and fabrication, and system integration.

With the human brain’s immense network of 86 billion neurons poised to fire, sensing systems remain difficult to recreate. Scientists are limited by both the footprint of the design and by the amount they can create. In future models, the team hopes to further reduce the device’s size, taking the project a step closer to fully mimicking human sensing systems.

This work was supported by the Air Force Office of Scientific Research (FA9550-22-1-0423), the Northwestern University Materials Research Science and Engineering Center (MRSEC; award from National Science Foundation DMR-230869), Flexterra Corporation, the National Science Fund for Distinguished Young Scholars of China (No. 32425040) and the National Natural Science Foundation of China (Grant No. 32201648).
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