Tailored 3D printed micro-crystallization chip for versatile and high-efficiency droplet evaporative crystallization

Han Mingguang; Li Jin; He Gaohong; Lin Meng; Xiao Wu; Li Xiangcun; Wu Xuemei; Jiang Xiaobin

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Tailored 3D printed micro-crystallization chip for versatile and high-efficiency droplet evaporative crystallization

机译：用于多功能和高效液滴蒸发结晶的量身定制的3D印刷微晶芯片

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Droplet evaporative crystallization on a micro-structured platform with limited interfacial area has potential applications in crystallization theory, bioengineering, and particle drug preparation. Here, an efficient and versatile approach is discussed for multiple drop-evaporative crystallization processes on a micro-crystallization chip fabricated via three-dimensional printing. A chip with limited interfacial area could be fabricated on a highly controlled crystallizer interface. During liquid injection, various drop locations and evaporative conditions can be used, which enables flexible and distinct crystallization processes. This reveals controlling mechanisms and identifies nucleation locations and growth paths. Various classic crystallization systems were introduced to evaluate the chip performance. Controlled nucleation and growth mechanisms at stable evaporative rates were revealed. From the final crystal morphologies, particle locations, and distributions, the effects of the initial concentration and droplet contact conditions at the triple-phase interface could be investigated with high adjustability. Moreover, the results can provide insights into the 'coffee ring' formation during evaporative crystallization, dendritic crystal growth, and hydrate crystallization mechanisms. In the limited microstructure, the capillary flow of a liquid drop can spontaneously drive the crystal distribution and morphology. Finally, incorrect liquid drop locations that led to unpredictable crystal formation and distributions were discussed to improve repeatability and efficiency. Applications include the manufacture of particle drugs and flow chemistry.

机译：在具有有限界面区域的微结构平台上的液滴蒸发结晶具有结晶理论，生物工程和颗粒药物制备的潜在应用。这里，讨论通过三维印刷制造的微结晶芯片上的多滴蒸发结晶过程的高效和多功能的方法。可以在高度控制的结晶器界面上制造具有有限界面区域的芯片。在液体注射期间，可以使用各种掉落位置和蒸发条件，这使得能够灵活和不同的结晶过程。这揭示了控制机制并识别成核位置和生长路径。引入各种经典结晶系统以评估芯片性能。揭示了稳定的蒸发速率下的受控成核和生长机制。从最终的晶体形态，颗粒位置和分布，可以通过高调节性研究三相界面处的初始浓度和液滴接触条件的影响。此外，结果可以在蒸发结晶，树突式晶体生长和水合物结晶机制中提供进入“咖啡环”的洞察。在有限的微观结构中，液滴的毛细血管流动可以自发地驱动晶体分布和形态。最后，讨论了导致不可预测的晶体形成和分布的不正确的液滴位置以提高可重复性和效率。应用包括颗粒药物和流动化学的制造。

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来源
《Lab on a chip》 |2019年第5期|共11页
作者
Han Mingguang; Li Jin; He Gaohong; Lin Meng; Xiao Wu; Li Xiangcun; Wu Xuemei; Jiang Xiaobin;
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Dalian Univ Technol Sch Chem Engn Engn Lab Petrochem Energy Efficient Separat Techn State Key Lab Fine Chem Dalian 116024 Liaoning Peoples R China;

Dalian Univ Technol Sch Chem Engn Engn Lab Petrochem Energy Efficient Separat Techn State Key Lab Fine Chem Dalian 116024 Liaoning Peoples R China;

Dalian Univ Technol Sch Chem Engn Engn Lab Petrochem Energy Efficient Separat Techn State Key Lab Fine Chem Dalian 116024 Liaoning Peoples R China;

Dalian Univ Technol Sch Chem Engn Engn Lab Petrochem Energy Efficient Separat Techn State Key Lab Fine Chem Dalian 116024 Liaoning Peoples R China;

Dalian Univ Technol Sch Chem Engn Engn Lab Petrochem Energy Efficient Separat Techn State Key Lab Fine Chem Dalian 116024 Liaoning Peoples R China;

Dalian Univ Technol Sch Chem Engn Engn Lab Petrochem Energy Efficient Separat Techn State Key Lab Fine Chem Dalian 116024 Liaoning Peoples R China;

Dalian Univ Technol Sch Chem Engn Engn Lab Petrochem Energy Efficient Separat Techn State Key Lab Fine Chem Dalian 116024 Liaoning Peoples R China;

Dalian Univ Technol Sch Chem Engn Engn Lab Petrochem Energy Efficient Separat Techn State Key Lab Fine Chem Dalian 116024 Liaoning Peoples R China;

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正文语种 eng
中图分类化学实验（实验化学）;生物化学;生物科学;化学;
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专利

1. Tailored 3D printed micro-crystallization chip for versatile and high-efficiency droplet evaporative crystallization [J] . Han Mingguang, Li Jin, He Gaohong, Lab on a chip . 2019,第5期

机译：用于多功能和高效液滴蒸发结晶的量身定制的3D印刷微晶芯片
2. Ambient Inkjet-Printed High-Efficiency Perovskite Solar Cells: Manipulating the Spreading and Crystallization Behaviors of Picoliter Perovskite Droplets [J] . Lihua Zhang, Shi Chen, Xingzhu Wang, Solar RRL . 2021,第5期

机译：环境喷墨印刷高效钙钛矿太阳能电池：操纵Picoliter Perovskite液滴的扩散和结晶行为
3. 3D-Printed, All-in-One Evaporator for High-Efficiency Solar Steam Generation under 1 Sun Illumination [J] . Li Yiju, Gao Tingting, Yang Zhi, Advanced Materials . 2017,第26期

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4. EXPERIMENTAL STUDY OF BRINE DROPLET EVAPORATION AND CRYSTALLIZATION AT VARIOUS TEMPERATURES AND HUMIDITY USING EDB METHOD AND PENDANT DROPLET METHOD [C] . Jie Qu, Luis Escobar, Zhonghao Rao, ASME International Conference on Energy Sustainability;ASME Heat Transfer Conference . 2019

机译：EDB法和垂体液滴法在不同温度和湿度条件下蒸发和结晶的实验研究
5. Implementing Inkjet-Electrospray: Bulk and Interfacial Transport in Evaporating Sessile Droplets and Printed Rivulets [D] . Ghafouri, Aref. 2021

机译：实施喷墨电气喷雾：散发和界面传输，在蒸发的术滴液滴和印刷的流程中
6. 3D‐Printed Microfluidics: Formation of Polarized Functional Artificial Cells from Compartmentalized Droplet Networks and Nanomaterials Using One‐Step Dual‐Material 3D‐Printed Microfluidics (Adv. Sci. 1/2020) [O] . Jin Li, Divesh Kamal Baxani, William David Jamieson, 2020

机译：3D打印的微流体：使用一步双材料的3D打印的微流体由分隔的液滴网络和纳米材料形成极化的功能性人造细胞（Adv。Sci。1/2020）
7. Optofluidic sensing from inkjet-printed droplets: the enormous enhancement by evaporation-induced spontaneous flow on photonic crystal biosilica [O] . Xianming Kong, Yuting Xi, Paul LeDuff, 2016

机译：来自喷墨印刷液滴的Optof流体感测：通过蒸发诱导的光子晶体Biosilica的自发流动增强

Tailored 3D printed micro-crystallization chip for versatile and high-efficiency droplet evaporative crystallization

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