Deying Xia scite author profile

This review article provides a brief summary of recent research progress on anisotropic wetting on one-dimensional (1D) and directionally patterned surfaces, as well as the technical importance in various applications. Inspiration from natural structures exhibiting anisotropic wetting behavior is first discussed. Development of fabrication techniques for topographically and chemically 1D patterned surfaces and directional nanomaterials are then reviewed, with emphasis on anisotropic behavior with topographically (structurally) patterned surfaces. The basic investigation of anisotropic wetting behavior and theoretical simulations for anisotropic wetting are also further reviewed. Perspectives concerning future direction of anisotropic wetting research and its potential applications in microfluidic devices, lab-on-a-chip, sensor, microreactor and self-cleaning are presented.

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Strongly Anisotropic Wetting on One-Dimensional Nanopatterned Surfaces

Xia

2008

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This communication reports strongly anisotropic wetting behavior on one-dimensional nanopatterned surfaces. Contact angles, degree of anisotropy, and droplet distortion are measured on micro- and nanopatterned surfaces fabricated with interference lithography. Both the degree of anisotropy and the droplet distortion are extremely high as compared with previous reports because of the well-defined nanostructural morphology. The surface is manipulated to tune with the wetting from hydrophobic to hydrophilic while retaining the structural wetting anisotropy with a simple silica nanoparticle overcoat. The wetting mechanisms are discussed. Potential applications in microfluidic devices and evaporation-induced pattern formation are demonstrated.

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Nanostructures and Functional Materials Fabricated by Interferometric Lithography

et al. 2010

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Interferometric lithography (IL) is a powerful technique for the definition of large-area, nanometer-scale, periodically patterned structures. Patterns are recorded in a light-sensitive medium, such as a photoresist, that responds nonlinearly to the intensity distribution associated with the interference of two or more coherent beams of light. The photoresist patterns produced with IL are a platform for further fabrication of nanostructures and growth of functional materials and are building blocks for devices. This article provides a brief review of IL technologies and focuses on various applications for nanostructures and functional materials based on IL including directed self-assembly of colloidal nanoparticles, nanophotonics, semiconductor materials growth, and nanofluidic devices. Perspectives on future directions for IL and emerging applications in other fields are presented.

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Directed Self‐Assembly of Silica Nanoparticles into Nanometer‐Scale Patterned Surfaces Using Spin‐Coating

et al. 2004

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A Facile Approach to Directed Assembly of Patterns of Nanoparticles Using Interference Lithography and Spin Coating

Xia

Brueck

2004

Nano Lett.

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We present a facile approach to the directed assembly of silica nanoparticles (≲ 100-nm diameter) into periodic arrays on flat surfaces using interference lithography and spin coating. Periodic photoresist patterns, used as templates for the spin-coating process, were prepared using interference lithography. Silica nanoparticle dispersions were spin coated on these patterned surfaces, and the resist was removed, leaving periodic nanoparticle patterns on flat surfaces. Parallel arrays and continuous cross networks of particles were fabricated successfully with periods between hundreds of nanometers and several microns over areas of several square centimeters. The morphology (period, layer width and thickness, etc.) of the particle patterns can be controlled by varying the process conditions.

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Tailoring Anisotropic Wetting Properties on Submicrometer-Scale Periodic Grooved Surfaces

Xia

Jiang

et al. 2010

Langmuir

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The use of simple plasma treatments and polymer deposition to tailor the anisotropic wetting properties of one-dimensional (1D) submicrometer-scale grooved surfaces, fabricated using interferometric lithography in photoresist polymer films, is reported. Strongly anisotropic wetting phenomena are observed for as-prepared 1D grooved surfaces for both positive and negative photoresists. Low-pressure plasma treatments with different gas compositions (e.g., CHF(3), CF(4), O(2)) are employed to tailor the anisotropic wetting properties from strongly anisotropic and hydrophobic to hydrophobic with very high contact angle and superhydrophilic with a smaller degree of wetting anisotropy and without changing the structural anisotropy. The change of the surface wetting properties for these 1D patterned surfaces is attributed to a change in surface chemical composition, monitored using XPS. In addition, the initial anisotropic wetting properties on 1D patterned samples could be modified by coating plasma treated samples with a thin layer of polymer. We also demonstrated that the wetting properties of 1D grooved surfaces in a Si substrate could be tuned with similar plasma treatments. The ability to tailor anisotropic wetting on 1D patterned surfaces will find many applications in microfluidic devices, lab-on-a-chip systems, microreactors, and self-cleaning surfaces.

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Fabrication of Nanofluidic Biochips with Nanochannels for Applications in DNA Analysis

Xia

Yan

Hou

2012

Small

101

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With the development of nanotechnology, great progress has been made in the fabrication of nanochannels. Nanofluidic biochips based on nanochannel structures allow biomolecule transport, bioseparation, and biodetection. The domain applications of nanofluidic biochips with nanochannels are DNA stretching and separation. In this Review, the general fabrication methods for nanochannel structures and their applications in DNA analysis are discussed. These representative fabrication approaches include conventional photolithography, interference lithography, electron-beam lithography, nanoimprint lithography and polymer nanochannels. Other nanofabrication methods used to fabricate unique nanochannels, including sub-10-nm nanochannels, single nanochannels, and vertical nanochannels, are also mentioned. These nanofabrication methods provide an effective way to form nanoscale channel structures for nanofluidics and biosensor devices for DNA separation, detection, and sensing. The broad applications of nanochannels and future perspectives are also discussed.

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Hydrothermal Synthesis of Prismatic NaHoF₄ Microtubes and NaSmF₄ Nanotubes

Liu

et al. 2004

Inorg. Chem.

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A new example of tubular materials based on sodium rare-earth tetrafluorides, NaHoF(4) and NaSmF(4), has been fabricated by a simple hydrothermal method. In addition, an unusual nanotube with a perfect couple of an outer prismatic shell with an inner concentric prismatic nanorod at the center is found. According to the architectures of various products, the general growth mechanism of these tubes is proposed.

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Deying Xia

Anisotropic Wetting Surfaces with One‐Dimesional and Directional Structures: Fabrication Approaches, Wetting Properties and Potential Applications

Strongly Anisotropic Wetting on One-Dimensional Nanopatterned Surfaces

Nanostructures and Functional Materials Fabricated by Interferometric Lithography

Directed Self‐Assembly of Silica Nanoparticles into Nanometer‐Scale Patterned Surfaces Using Spin‐Coating

A Facile Approach to Directed Assembly of Patterns of Nanoparticles Using Interference Lithography and Spin Coating

Tailoring Anisotropic Wetting Properties on Submicrometer-Scale Periodic Grooved Surfaces

Fabrication of Nanofluidic Biochips with Nanochannels for Applications in DNA Analysis

Hydrothermal Synthesis of Prismatic NaHoF₄ Microtubes and NaSmF₄ Nanotubes

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Deying Xia

Anisotropic Wetting Surfaces with One‐Dimesional and Directional Structures: Fabrication Approaches, Wetting Properties and Potential Applications

Strongly Anisotropic Wetting on One-Dimensional Nanopatterned Surfaces

Nanostructures and Functional Materials Fabricated by Interferometric Lithography

Directed Self‐Assembly of Silica Nanoparticles into Nanometer‐Scale Patterned Surfaces Using Spin‐Coating

A Facile Approach to Directed Assembly of Patterns of Nanoparticles Using Interference Lithography and Spin Coating

Tailoring Anisotropic Wetting Properties on Submicrometer-Scale Periodic Grooved Surfaces

Fabrication of Nanofluidic Biochips with Nanochannels for Applications in DNA Analysis

Hydrothermal Synthesis of Prismatic NaHoF4 Microtubes and NaSmF4 Nanotubes

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Hydrothermal Synthesis of Prismatic NaHoF₄ Microtubes and NaSmF₄ Nanotubes