| scholarly article | Q13442814 |
| P2093 | author name string | Ying Liu | |
| Yao Huang | |||
| Jian Zhuang | |||
| Xiuting Zheng | |||
| Hanwen Li | |||
| Daming Wu | |||
| Jingyao Sun | |||
| P2860 | cites work | Pancake bouncing on superhydrophobic surfaces | Q29391720 |
| Liquid-infused structured surfaces with exceptional anti-biofouling performance. | Q30524221 | ||
| Mimicking natural superhydrophobic surfaces and grasping the wetting process: a review on recent progress in preparing superhydrophobic surfaces | Q34221525 | ||
| What do we need for a superhydrophobic surface? A review on the recent progress in the preparation of superhydrophobic surfaces | Q34647543 | ||
| Near infrared spectroscopic (NIRS) analysis of drug-loading rate and particle size of risperidone microspheres by improved chemometric model. | Q35193042 | ||
| Recent developments in bio-inspired special wettability. | Q37768687 | ||
| Superhydrophobic surfaces: From natural to biomimetic to functional | Q37789493 | ||
| Adhesion behaviors on superhydrophobic surfaces | Q38191629 | ||
| Biomimetic polymeric superhydrophobic surfaces and nanostructures: from fabrication to applications. | Q38752420 | ||
| Designing Bioinspired Anti-Biofouling Surfaces based on a Superwettability Strategy | Q38903153 | ||
| Controlled Three-Dimensional Hierarchical Structuring by Memory-Based, Sequential Wrinkling | Q39185704 | ||
| Nanocasting technique to prepare lotus-leaf-like superhydrophobic electroactive polyimide as advanced anticorrosive coatings | Q43989688 | ||
| From petal effect to lotus effect: a facile solution immersion process for the fabrication of super-hydrophobic surfaces with controlled adhesion. | Q44779722 | ||
| Superhydrophobic surfaces from hierarchically structured wrinkled polymers | Q46060864 | ||
| Flexible Teflon nanocone array surfaces with tunable superhydrophobicity for self-cleaning and aqueous droplet patterning. | Q46417034 | ||
| Bio-inspired hierarchical micro- and nano-wrinkles obtained via mechanically directed self-assembly on shape-memory polymers. | Q50583534 | ||
| The Lotus effect: superhydrophobicity and metastability. | Q51478060 | ||
| Robust Superhydrophobic Foam: A Graphdiyne-Based Hierarchical Architecture for Oil/Water Separation. | Q51652184 | ||
| UV-assisted capillary force lithography for engineering biomimetic multiscale hierarchical structures: From lotus leaf to gecko foot hairs. | Q51677735 | ||
| Robust superhydrophobicity in large-area nanostructured surfaces defined by block-copolymer self assembly. | Q53991667 | ||
| Biologically inspired omniphobic surfaces by reverse imprint lithography. | Q54388710 | ||
| Biomimetic Moth-eye Nanofabrication: Enhanced Antireflection with Superior Self-cleaning Characteristic. | Q55262832 | ||
| Liquid-Infused Nanostructured Surfaces with Extreme Anti-Ice and Anti-Frost Performance | Q57256902 | ||
| Moving superhydrophobic surfaces toward real-world applications | Q57695316 | ||
| Strain-Controlled Switching of Hierarchically Wrinkled Surfaces between Superhydrophobicity and Superhydrophilicity | Q60146445 | ||
| Nanofiller Reinforced Biodegradable PLA/PHA Composites: Current Status and Future Trends. | Q64899397 | ||
| Transformation of a simple plastic into a superhydrophobic surface | Q73063343 | ||
| A lotus-leaf-like superhydrophobic surface: a porous microsphere/nanofiber composite film prepared by electrohydrodynamics | Q80565462 | ||
| A lotus-leaf-like superhydrophobic surface prepared by solvent-induced crystallization | Q82771499 | ||
| Hierarchical nanoflake surface driven by spontaneous wrinkling of polyelectrolyte/metal complexed films | Q83210511 | ||
| Transparent, superhydrophobic surfaces from one-step spin coating of hydrophobic nanoparticles | Q83367097 | ||
| Switchable Transparency and Wetting of Elastomeric Smart Windows | Q84997701 | ||
| How Water Advances on Superhydrophobic Surfaces | Q87488516 | ||
| All spraying processes for the fabrication of robust, self-healing, superhydrophobic coatings | Q87572995 | ||
| Washable and wear-resistant superhydrophobic surfaces with self-cleaning property by chemical etching of fibers and hydrophobization | Q88105127 | ||
| Highly stretchable and ultrathin nanopaper composites for epidermal strain sensors | Q89087875 | ||
| P433 | issue | 2 | |
| P304 | page(s) | 2750-2757 | |
| P577 | publication date | 2019-02-06 | |
| P1433 | published in | ACS Omega | Q27727647 |
| P1476 | title | Simple and Affordable Way To Achieve Polymeric Superhydrophobic Surfaces with Biomimetic Hierarchical Roughness | |
| P478 | volume | 4 |
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