Weixuan Han scite author profile

Weixuan Han

3Publications

3Citation Statements Received

36Citation Statements Given

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Affiliations

Northeast Electric Power University, Zhejiang Normal University, Dalian University

Publications

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8-Bit Adder and Subtractor with Domain Label Based on DNA Strand Displacement

Han

Zhou

2018

Molecules

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DNA strand displacement, which plays a fundamental role in DNA computing, has been widely applied to many biological computing problems, including biological logic circuits. However, there are many biological cascade logic circuits with domain labels based on DNA strand displacement that have not yet been designed. Thus, in this paper, cascade 8-bit adder/subtractor with a domain label is designed based on DNA strand displacement; domain t and domain f represent signal 1 and signal 0, respectively, instead of domain t and domain f are applied to representing signal 1 and signal 0 respectively instead of high concentration and low concentration high concentration and low concentration. Basic logic gates, an amplification gate, a fan-out gate and a reporter gate are correspondingly reconstructed as domain label gates. The simulation results of Visual DSD show the feasibility and accuracy of the logic calculation model of the adder/subtractor designed in this paper. It is a useful exploration that may expand the application of the molecular logic circuit.

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The Decoder Based on DNA Strand Displacement with Improved “AND” Gate and “OR” Gate

Han

Zhou

Wang

et al. 2017

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Progress study on the development of lithium-sulfur batteries

Han

Wang

2022

IOP Conf. Ser.: Earth Environ. Sci.

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With the rapid development of the new energy industry in recent years, the demand for lithium batteries is very urgent, and at the same time, the requirements for the performance of lithium batteries are getting higher and higher. Lithium-sulfur batteries, as a very competitive lithium battery, can reach as much as five times the energy density of traditional lithium batteries. However, due to various limitations in the reaction process, Li-S batteries also need to undergo various performance improvements to improve the efficiency of Li-S batteries and industrial applications. This paper introduces the advantages and disadvantages of lithium-sulfur batteries as well as future challenges. It also introduces the recent developments in lithium-sulfur batteries from three different aspects, i.e., material modification, structure-based modifications, and discussion from the perspective of electrolyte additives.

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Weixuan Han

8-Bit Adder and Subtractor with Domain Label Based on DNA Strand Displacement

The Decoder Based on DNA Strand Displacement with Improved “AND” Gate and “OR” Gate

Progress study on the development of lithium-sulfur batteries

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