High surface water interaction in superhydrophobic nanostructured silicon surfaces: Convergence between nanoscopic and macroscopic scale phenomena

Mu?oz-Noval A.; Hernando Pérez M.; Torres Costa V.; Martín Palma R.J.; De Pablo P.J.; Manso Silván M.

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High surface water interaction in superhydrophobic nanostructured silicon surfaces: Convergence between nanoscopic and macroscopic scale phenomena

机译：超疏水纳米结构硅表面中的高表面水相互作用：纳米和宏观尺度现象之间的收敛

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In the present work, we investigate wetting phenomena on freshly prepared nanostructured porous silicon (nPS) with tunable properties. Surface roughness and porosity of nPS can be tailored by controlling fabrication current density in the range 40-120 mA/cm ~2. The length scale of the characteristic surface structures that compose nPS allows the application of thermodynamic wettability approaches. The high interaction energy between water and surface is determined by measuring water contact angle (WCA) hysteresis, which reveals Wenzel wetting regime. Moreover, the morphological analysis of the surfaces by atomic force microscopy allows predicting WCA from a semiempiric model adapted to this material.

机译：在当前的工作中，我们研究具有可调节特性的新鲜制备的纳米结构多孔硅（nPS）上的润湿现象。 nPS的表面粗糙度和孔隙率可通过将制造电流密度控制在40-120 mA / cm〜2的范围内进行调整。组成nPS的特征性表面结构的长度尺度允许应用热力学润湿性方法。水和表面之间的高相互作用能通过测量水接触角（WCA）磁滞来确定，这揭示了Wenzel润湿方式。此外，通过原子力显微镜对表面进行形态分析，可以从适用于这种材料的半经验模型预测WCA。

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《Langmuir: The ACS Journal of Surfaces and Colloids》 |2012年第3期|共5页
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Mu?oz-Noval A.; Hernando Pérez M.; Torres Costa V.; Martín Palma R.J.; De Pablo P.J.; Manso Silván M.;
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1. High surface water interaction in superhydrophobic nanostructured silicon surfaces: Convergence between nanoscopic and macroscopic scale phenomena [J] . Mu?oz-Noval A., Hernando Pérez M., Torres Costa V., Langmuir: The ACS Journal of Surfaces and Colloids . 2012,第3期

机译：超疏水纳米结构硅表面中的高表面水相互作用：纳米和宏观尺度现象之间的收敛
2. In-situ ATR-FTIR for dynamic analysis of superhydrophobic breakdown on nanostructured silicon surfaces [J] . Nandi Vrancken, Jiaqi Li, Stefanie Sergeant, Scientific reports. . 2018,第1期

机译：原位ATR-FTIR用于纳米结构硅表面的超疏水性分解动态分析
3. Superhydrophobic nanostructured silicon surfaces with controllable broadband reflectance [J] . Seong J. Cho, Taechang An, Jin Young Kim, Chemical Communications . 2011,第21期

机译：具有可控宽带反射率的超疏水纳米结构硅表面
4. WATER INTERACTION WITH NANOSTRUCTURED SILICON OXIDE SURFACES [C] . Luning Zhang, Y. Ron Shen, Seema Singh American Chemical Society National Meeting . 2007

机译：与纳米结构氧化硅表面的水相互作用
5. Scalable Manufacturing of Superhydrophobic Micro- and Nanostructured Condensation Accelerating and Droplet Shedding Surfaces for Air Conditioning Performance Enhancement [D] . Kadala, Kristyn . 2019

机译：用于空调性能增强的超疏水微珠和纳米结构冷凝加速和液滴脱落表面的可扩展制造
6. In-situ ATR-FTIR for dynamic analysis of superhydrophobic breakdown on nanostructured silicon surfaces [O] . Nandi Vrancken, Jiaqi Li, Stefanie Sergeant, -1

机译：原位ATR-FTIR用于动态分析纳米结构硅表面上的超疏水性
7. Jumping Droplet Dynamics on Scalable Nanostructured Superhydrophobic Surfaces [O] . Miljkovic, Nenad, Preston, Daniel John, Enright, Ryan, 2013

机译：可伸展纳米结构超疏水表面的液滴动力学跳跃

High surface water interaction in superhydrophobic nanostructured silicon surfaces: Convergence between nanoscopic and macroscopic scale phenomena

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