Recent Progress of Protein‐Based Data Storage and Neuromorphic Devices

Wang, Junjie; Qian, Fangsheng; Huang, Shenming; Lv, Ziyu; Wang, Yan; Xing, Xiaofei; Chen, Meng; Han, Su‐Ting; Zhou, Ye

doi:10.1002/aisy.202000180

Cited by 30 publications

(20 citation statements)

References 157 publications

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Section: Discussionmentioning

confidence: 99%

“…By combining multiplication and addition, biomemristors can be used for neuromorphic computing. 208 In particular, the resistance value of the memristor can be rapidly and reversibly switched under the applied voltage, which makes the neuromorphic computing chip or brain-like chip integrated by the memristor not only perform energy-saving computing, but can also be reprogrammable, which brings unparalleled advantages to neuromorphic computing. [209][210][211][212] In summary, such ReRAM devices add extra-factors as extra control parameters besides the traditional electrical pulse to manipulate resistive memories, and it can realize more functions so as to be better used in artificial intelligence, such as integrating the photodetectors with the nonvolatile memory devices, which can simulate visual sensing and visual memory functions.…”

Section: Discussionmentioning

confidence: 99%

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Multi-factor-controlled ReRAM devices and their applications

et al. 2022

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Multi-factor-controlled ReRAM devices and their applications

et al. 2022

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“…Also, the art of folded protein is a way to efficiently store the copy of the blockchain in the near future, thanks to its compact size and persistent nature. Recent protein-based storage (Wang et al, 2021) progress provides a practical way to distribute store the same piece of information with a highly stable shape and link. The protein can be rapidly scanned to find out the difference in their structure hence figuring out the data changes.…”

Section: Guidelines For Prohibiting Non-renewable Energies and Carbon...mentioning

confidence: 99%

Recordism: A social-scientific prospect of blockchain from social, legal, financial, and technological perspectives

Li¹,

Xu²,

Yang³

et al. 2022

Preprint

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Blockchain has the potential to reform the architecture of cyberspace and transform the storage, circulation and exchange of information through decentralization, transparency and de-identification. Meaning that ordinary participants can become traders, miners, retailers, and customers simultaneously, breaking the barriers and reducing the information gap between participants in the community, contributing to the futuristic metaverse with an open progressive and equal ideology. Such information transformation empowered by blockchain also profoundly impacts our methodological cognition, legal governance on cyberspace and financial and technological development.This study explores the main question: what are the implications of the blockchain-driven information revolution for society and social sciences? In order to answer this main question, this paper chooses four perspectives, which are methodological, legal, financial and technical. By analysis of these four perspectives, this paper is expected to provide a more comprehensive analysis of the blockchaindriven impact on society, social sciences, and technology to contribute to current scholarships. Additionally, regarding blockchain as an innovative methodological cognition, it grows on top of other technologies while helping advance other technologies. This paper concludes that although there are few frictions between blockchain and current social architecture, blockchain is so much more than the technology itself,

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“…To date, optoelectronic transistors have been reported as promising artificial synapses based on diverse materials systems, including inorganic perovskites, amorphous oxide, biological materials, organic materials, and two-dimensional materials [9][10][11][12][13][14][15]. Among the aforementioned materials systems, organic-based transistors have a unique combination of intriguing properties, including wide spectrum response for photoelectrical conversion, tunable molecular structures, low-cost fabrication techniques, flexibility, and abundant deposition conditions [16][17][18][19][20][21][22][23][24][25].…”

Section: Introductionmentioning

confidence: 99%

Evolutionary 2D organic crystals for optoelectronic transistors and neuromorphic computing

Qian¹,

Bu²,

Wang³

et al. 2022

Neuromorph. Comput. Eng.

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Brain-inspired neuromorphic computing has been extensively researched, taking advantage of increased computer power, the acquisition of massive data, and algorithm optimization. Neuromorphic computing requires mimicking synaptic plasticity and enables near-in-sensor computing. In synaptic transistors, how to elaborate and examine the link between microstructure and characteristics is a major difficulty. Due to the absence of interlayer shielding effects, defect-free interfaces, and wide spectrum responses, reducing the thickness of organic crystals to the 2D limit has a lot of application possibilities in this computing paradigm. This paper presents an update on the progress of 2D organic crystal-based transistors for data storage and neuromorphic computing. The promises and synthesis methodologies of 2D organic crystals are summarized. Following that, applications of 2D organic crystals for ferroelectric nonvolatile memory, circuit-type optoelectronic synapses, and neuromorphic computing are addressed. Finally, new insights and challenges for the field's future prospects are presented, pushing the boundaries of neuromorphic computing even farther.

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Recent Progress of Protein‐Based Data Storage and Neuromorphic Devices

Cited by 30 publications

References 157 publications

Multi-factor-controlled ReRAM devices and their applications

Multi-factor-controlled ReRAM devices and their applications

Recordism: A social-scientific prospect of blockchain from social, legal, financial, and technological perspectives

Evolutionary 2D organic crystals for optoelectronic transistors and neuromorphic computing

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