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Additive Manufacturing Technologies: 3D Printing in Organic Synthesis
ChemCatChem ( IF 3.8 ) Pub Date : 2018-02-05 , DOI: 10.1002/cctc.201701619 Sergio Rossi 1 , Alessandra Puglisi 1 , Maurizio Benaglia 1
ChemCatChem ( IF 3.8 ) Pub Date : 2018-02-05 , DOI: 10.1002/cctc.201701619 Sergio Rossi 1 , Alessandra Puglisi 1 , Maurizio Benaglia 1
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The manufacturing of a three‐dimensional product from a computer‐driven digital model (3D printing) has found extensive applications in several fields. Additive manufacturing technologies offer the possibility to fabricate ad hoc tailored products on demand, at affordable prices, and have been employed to make customized and complex items for actual sale. However, despite the great progress and the countless opportunities offered by the 3D printing technology, surprisingly a relatively limited number of applications have been documented in organic chemistry. This Minireview will focus specifically on the exploitation of additive manufacturing technologies in the synthesis of organic compounds, and, in particular, on the use of 3D‐printed catalysts and 3D printed reactors, and on the fabrication and use of 3D printed flow reactors.
中文翻译:
增材制造技术:有机合成中的3D打印
从计算机驱动的数字模型(3D打印)制造三维产品已在多个领域得到了广泛的应用。增材制造技术提供了按需以可承受的价格制造定制产品的可能性,并且已被用于制造定制和复杂的产品以进行实际销售。然而,尽管3D打印技术取得了长足的进步和提供了无数的机会,但令人惊讶的是,有机化学方面的应用数量相对有限。该Minireview将特别关注有机化合物合成中增材制造技术的开发,尤其是3D打印催化剂和3D打印反应器的使用,以及3D打印流动反应器的制造和使用。
更新日期:2018-02-05
中文翻译:
增材制造技术:有机合成中的3D打印
从计算机驱动的数字模型(3D打印)制造三维产品已在多个领域得到了广泛的应用。增材制造技术提供了按需以可承受的价格制造定制产品的可能性,并且已被用于制造定制和复杂的产品以进行实际销售。然而,尽管3D打印技术取得了长足的进步和提供了无数的机会,但令人惊讶的是,有机化学方面的应用数量相对有限。该Minireview将特别关注有机化合物合成中增材制造技术的开发,尤其是3D打印催化剂和3D打印反应器的使用,以及3D打印流动反应器的制造和使用。
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