Towards the Possibility of Additive Manufacturing of XNA-Based Devices Using Molecular Engineering Principles

Oleg V. Gradov; Irina A. Maklakova; Margarita A. Gradova; Andrey I. Sergeev; Yuriy K. Naganovskiy

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Towards the Possibility of Additive Manufacturing of XNA-Based Devices Using Molecular Engineering Principles

机译：朝着使用分子工程原理的基于XNA的器件的添加剂制造的可能性

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This paper considers a novel approach for integration between molecular engineering of XNA-based structures and additive manufacturing of XNA-based devices based on multiparametric characterization of XNAs by different functional descriptors (such as physical properties of XNA-based materials and precursors of XNA-based molecular devices) and the possibility of thermal or electron-beam processing as a prerequisite of the industrial technical process development for such device implementation. This can be performed in the framework of additive manufacturing by connecting the output of the XNA synthesizer or nucleic acid synthesizer with 3D-printer nozzles in such a way that oligos / AGCTX products are supported into the nozzles separately.

机译：本文认为基于不同功能描述符的XNA的XNA基器件的基于XNA的结构和基于XNA的组件的添加剂制造的集成方法（例如基于XNA的物理性质和基于XNA的前体，分子器件）和热或电子束处理的可能性作为这种装置实施的工业技术过程开发的先决条件。这可以通过将XNA合成器或核酸合成器的输出连接到3D打印机喷嘴的方式，以便单独支撑在喷嘴中的方式中，在添加剂制造框架中进行。

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来源
《Materials science forum》 |2021年第1期|84-104|共21页
作者
Oleg V. Gradov; Irina A. Maklakova; Margarita A. Gradova; Andrey I. Sergeev; Yuriy K. Naganovskiy;
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作者单位

N.N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences Kosygina str. 4 Moscow Russia;

N.N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences Kosygina str. 4 Moscow Russia N.M. Emanuel Institute of Biochemical Physics of the Russian Academy of Sciences Kosygina str. 4 Moscow Russia;

N.N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences Kosygina str. 4 Moscow Russia;

N.N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences Kosygina str. 4 Moscow Russia;

AII-Russian Research Institute for Fire Protection of Ministry of Russian Federation for Civil Defense Emergencies and Elimination of Consequences of Natural Disasters Moscow Region Balashikha Russia;

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原文格式 PDF
正文语种 eng
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关键词
DNA; RNA; xenonucleic acids; additive manufacturing; molecular engineering; nucleic acid synthesizer; oligonucleotide synthesis; molecular computing; waveform monitor; EM charging; NMR relaxometry; free induction decay; TGA;

机译：脱氧核糖核酸;RNA;氧核糖酸;添加剂制造;分子工程;核酸合成器;寡核苷酸合成;分子计算;波形监视器;充电;NMR弛豫;免费感应衰变;TGA;
入库时间 2022-08-19 03:19:20

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Towards the Possibility of Additive Manufacturing of XNA-Based Devices Using Molecular Engineering Principles

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