光热-电激发液滴多行为操纵

IF 18.5 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Advanced Functional Materials Pub Date : 2024-10-03 DOI:10.1002/adfm.202410612

Xueshan Jing, Huawei Chen, Xiaopeng Shang, Liwen Zhang, Song Zhao, Xinzhao Zhou, Xiaolin Liu, Zelinlan Wang, Yan Wang, Wenxin Du, Yurun Guo, Lei Jiang

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引用次数: 0

摘要

由于具有实时控制和非接触操作的优点，光激发液滴操纵在各种工业和健康领域都至关重要。然而，强大的驱动力和用于分裂或混合的高精度可操作性仍然是一个挑战。这里提出了一种配置热释电晶体表面的新概念，通过光-热-电效应对液滴进行多功能操纵。光斑周围的偶极子状电荷分布被激发，从而产生更敏锐的电场梯度反转和比传统光电更强 10 倍的介电泳（DEP）力。力是传统光电方法的 10 倍。发现了稳定模式和可变振荡模式，并可积极用于液滴的按需滑动和内部混合。特别是，表面张力在 25.7 至 85.4 mN m-1 之间的各种液滴都能被光分割。本项液滴操纵技术在货物运输、组合化学和生物医学分析方面的应用前景广阔。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Photothermal-Electric Excited Droplet Multibehavioral Manipulation

查看原文本刊更多论文

Photothermal-Electric Excited Droplet Multibehavioral Manipulation

The light-excited droplet manipulation is crucial in diverse industrial and health domains, owning to the merits of real-time control and noncontact operation. However, strong driving forces and high-precision maneuverability for splitting or mixing are still the challenges. Here a novel concept of configurating pyroelectric crystal surface is put forward to carry out multifunctional manipulation of the droplet by optical-thermal-electrical effect. Dipole-like electric charge distribution is excited around the light spot to generate sharper inversion of electric field gradient and 10-fold stronger dielectrophoretic （DEP） force than conventional photopyroelectric approaches. Both the stable mode and metastable-oscillation mode are found and can be positively used to make on-demand sliding and inside mixing of droplets. Especially, various droplets with the surface tension ranging from 25.7 to 85.4 mN m⁻¹ can be split by light. The present droplet manipulation technique demonstrates its promising applications in cargo transportation, combinatorial chemistry and biomedical analysis.

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来源期刊

Advanced Functional Materials 工程技术-材料科学：综合

CiteScore

29.50

自引率

4.20%

发文量

2086

审稿时长

2.1 months

期刊介绍： Firmly established as a top-tier materials science journal, Advanced Functional Materials reports breakthrough research in all aspects of materials science, including nanotechnology, chemistry, physics, and biology every week. Advanced Functional Materials is known for its rapid and fair peer review, quality content, and high impact, making it the first choice of the international materials science community.