3D Focalization Microfluidic Device Built with LTCC Technology for Nanoparticle Generation using Nanoprecipitation Route

Gomez H. C.; Gongora-Rubio M. R.; Agio B. O.; de Novais Schianti J.; Tiemi Kimura V.; de Oliveira A-Marim; Wasnievski da Silva de Luca Ramos L.; Seabra A. C.

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3D Focalization Microfluidic Device Built with LTCC Technology for Nanoparticle Generation using Nanoprecipitation Route

机译：3D采用LTCC技术构建的3D聚焦微流体器件，用于使用纳米折叠路线的纳米粒子生成技术

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Nanoprecipitation is a nanonization technique used for generating nanoparticles. Fields like pharmaceuticals and fine chemistry make use of such techniques. Typically, bulky batch mechanical processes are used, but these result in a high polydispersity index of the generated nanoparticles, poor particle size reproducibility and energy waste.

机译：纳米尺寸是用于产生纳米颗粒的纳米化技术。药物和精细化学等领域利用这些技术。通常，使用庞大的批量机械过程，但这些结果在产生的纳米颗粒的高多分散指数中，粒度差的再现性和能量浪费。

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来源
《Journal of Ceramic Science and Technology》 |2015年第4期|共10页
作者
Gomez H. C.; Gongora-Rubio M. R.; Agio B. O.; de Novais Schianti J.; Tiemi Kimura V.; de Oliveira A-Marim; Wasnievski da Silva de Luca Ramos L.; Seabra A. C.;
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作者单位

Univ Sao Paulo Escola Politecn Lab Sistemas Integraveis BR-05508900 Sao Paulo Brazil;

Inst Pesquisas Tecnol Estado Sao Paulo IPT Nucleo Bionanomanufatura BR-05508901 Sao Paulo Brazil;

Inst Pesquisas Tecnol Estado Sao Paulo IPT Nucleo Bionanomanufatura BR-05508901 Sao Paulo Brazil;

Inst Pesquisas Tecnol Estado Sao Paulo IPT Nucleo Bionanomanufatura BR-05508901 Sao Paulo Brazil;

Inst Pesquisas Tecnol Estado Sao Paulo IPT Nucleo Bionanomanufatura BR-05508901 Sao Paulo Brazil;

Inst Pesquisas Tecnol Estado Sao Paulo IPT Nucleo Bionanomanufatura BR-05508901 Sao Paulo Brazil;

Inst Pesquisas Tecnol Estado Sao Paulo IPT Nucleo Bionanomanufatura BR-05508901 Sao Paulo Brazil;

Univ Sao Paulo Escola Politecn Lab Sistemas Integraveis BR-05508900 Sao Paulo Brazil;

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原文格式 PDF
正文语种 eng
中图分类硅酸盐工业;
关键词
Nanoprecipitation; fluid flow focusing; LTCC; nanoparticles;

机译：纳米尺寸;流体流量聚焦;LTCC;纳米粒子;

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专利

1. 3D Focalization Microfluidic Device Built with LTCC Technology for Nanoparticle Generation using Nanoprecipitation Route [J] . Gomez H. C., Gongora-Rubio M. R., Agio B. O., Journal of Ceramic Science and Technology . 2015,第4期

机译：3D采用LTCC技术构建的3D聚焦微流体器件，用于使用纳米折叠路线的纳米粒子生成技术
2. Preparation and optimization of acetaminophen nanosuspension through nanoprecipitation using microfluidic devices: an artificial neural networks study. [J] . Mahdi Aghajani, Ahmad Reza Shahverdi, Seyed Mahdi Rezayat, Pharmaceutical development and technology . 2013,第3期

机译：使用微流控设备通过纳米沉淀制备和优化对乙酰氨基酚纳米悬浮液：人工神经网络研究。
3. Droplet generation in cross-flow for cost-effective 3D-printed "plug-and-play" microfluidic devices [J] . Zhang Jia Ming, Aguirre-Pablo Andres A., Li Er Qiang, RSC Advances . 2016,第84期

机译：用于经济高效的3D印刷“即插即用”微流体器件的液滴生成横流
4. 3D FOCALIZATION MICROFLUIDIC DEVICE BUILT WITH LTCC TECHNOLOGY FOR NANOPARTICLE GENERATION USING NANOPRECIPITATION ROUTE [C] . Houari Cobas Gomez, Mario Ricardo Gongora-Rubio, Bianca Oliveira Agio, IMAPS/ACerS International Conference and Exhibition on Ceramic Interconnect and Ceramic Microsystems Technologies . 2015

机译：3D采用LTCC技术构建的3D聚焦微流体器件，用于使用纳米折叠途径的纳米粒子生成技术
5. Magnet-assisted Layer-by-layer Assembly on Nanoparticles Based on 3D-printed Microfluidic Devices [D] . Cheng, Kuan 2019

机译：基于3D打印的微流控装置的纳米颗粒磁辅助层组装
6. The Use of Artificial Neural Networks for Optimizing Polydispersity Index (PDI) in Nanoprecipitation Process of Acetaminophen in Microfluidic Devices [O] . Mahdi Aghajani, Ahmad Reza Shahverdi, Amir Amani 2012

机译：人工神经网络在对乙酰氨基酚微流控装置纳米沉淀过程中优化多分散指数（PDI）的应用
7. Fab on a Package: LTCC Microfluidic Devices Applied to Chemical Process Miniaturization [O] . Houari Cobas Gomez, Roberta Mansini Cardoso, Juliana de Novais Schianti, 2018

机译：包装上的Fab：LTCC微流体装置应用于化学过程小型化
8. Characterization of Nanoparticles by Capillary Electrophoresis and Trapping of Nanoparticles in Microfluidics Device. [R] . Tang, T., Jemere, A. B., Mah, D. C., 2009

机译：微流控装置毛细管电泳和纳米粒子捕获纳米粒子的表征。

3D Focalization Microfluidic Device Built with LTCC Technology for Nanoparticle Generation using Nanoprecipitation Route

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