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| On the cover: In recent years, driven by the new round of scientific and technological revolution coupled with carbon neutrality, the energy structure is undergoing unprecedented changes. Biomass energy can be obtained from abundant resources by a number of application ways, which is zero-carbon and has unique effect of carbon negative emission. Meanwhile, advanced conversion technologies, such as BECCS, pyrolysis, and biohydrogen, are also joining the way to make a better bioenergy. Clean products of biomass have been promoted to a prospective future. Combination of biomass energy development and advanced technology will realize a more flexible and imaginative use of biomass, contributing to a green, low-carbon and sustainable development. For a bright and recyclable future, we should improve the use of biomass energy and unlock its huge potential for energy conservation and carbon reduction. |
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| Position: Home > issue > May 15, 2023 Volume 4, Issue 3 |
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| Fluidic memristor: Bringing chemistry to neuromorphic devices |
Category: Commentary Download:  PDF  Figure  Endnote |
| Author: Tianyi Xiong, Weiqi Li, Ping Yu, Lanqun Mao |
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Chemical fabrication and chemical signal-involved application of fluidic memristors.
Neuromorphic devices, devices with resistance switch dynamic emulating the behavior of neurons, are experiencing a surge in development due to the demand for artificial intelligence and therapeutic devices such as neuroprosthetics. Toward reproducing the behaviors of neurons with artificial devices, neuromorphic devices based on two-terminal memristors (devices with a single-valued relationship between charge Q and magnetic flux ¦Õ, i.e., d¦Õ = MdQ) with various mechanisms (e.g., redox, phase change, magnetic tunnelling, and ferroelectricity) have been developed for various applications, like in-memory computing or intelligent sensing.
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