Well-defined nanostructuring with designable anodic aluminum oxide template

Xu, Rui; Zeng, Zhiqiang; Lei, Yong

doi:10.1038/s41467-022-30137-6

Cited by 18 publications

(18 citation statements)

References 41 publications

(53 reference statements)

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“…[98] Lei et al further utilized unequal aluminum anodization rates at different voltages to achieve shape-designable pore combinations within a single AAO template, which paves a new way for the design of a programmable microcavity array. [99]…”

Section: Master Mold Fabricationmentioning

confidence: 99%

Recent Progress on the Development of Magnetically‐Responsive Micropillars: Actuation, Fabrication, and Applications

Wang

2023

Adv Funct Materials

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Stimuli-responsive micro-pillared structures can perform complex and precise tasks at the microscale through dynamic and reversible deformation of the pillars in response to external triggers. Magnetic field is one of the most common actuation strategies due to its incomparable advantages such as instantaneous response, remote and nondestructive control, and superior biocompatibility. Over the past decade, many researches are attempted to design and optimize magnetically-responsive micropillars for a wide range of applications and great progresses are accomplished. In this review, the most important aspects of recent progress of magnetically-responsive micropillars are covered to give a comprehensive and systematical introduction to this new field, from the actuation mechanisms, fabrication methods, and deformation patterns to the practical applications. The increasingly maturing fabrication techniques can provide low-cost and large-scale magnetic micropillars with homogeneous responses. Some advanced techniques are developed to fabricate micropillars with programmable and reprogrammable responses for site-specific and reconfigurable actuations. On the other hand, practical applications for particle/droplet/light manipulation, flow generation, miniature swimming/climbing/carrying microrobots, tunable adhesion, cellular probe, fog collector, and anti-ice surfaces are also summarized. Finally, current challenges that limit the industrial implementation are discussed and the authors' perspectives on the future directions of magnetically-responsive micropillars are stated.

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Section: Master Mold Fabricationmentioning

confidence: 99%

Recent Progress on the Development of Magnetically‐Responsive Micropillars: Actuation, Fabrication, and Applications

Wang

2023

Adv Funct Materials

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“…Particularly, there are only limited pore shapes (e.g., circular, triangular, and square) and spatial configurations (e.g., trigonal, tetragonal, and hexagonal arrangements) of AAO available for assembling metal patterns. [17,18] Very recently, Lei's Figure 1. Schematics of preparation and biosensing applications of noble metal self-assembly.…”

Section: Template Strategymentioning

confidence: 99%

Emerging Biosensors Based on Noble Metal Self‐Assembly for In Vitro Disease Diagnosis

Qian²,

Huang

2023

Advanced NanoBiomed Research

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The biosensing systems are powerful tools in characterizing the pathological state of patients, promising in vitro disease diagnosis at an early stage. Noble metals are introduced into emerging biosensors benefiting from their outstanding properties, such as surface plasmon resonance and photothermal conversion. The ordered arrangements of noble metals into superstructures through self‐assembling offer improved selectivity and sensitivity in biosensing disease biomarkers. Herein, the current strategies for preparing noble metal self‐assemblies are summarized, with particular emphasis on the driving forces triggering the assembling process. The functions that noble metal self‐assemblies exert in biosensing systems are then reviewed, highlighting their potential to be integrated into diagnostic applications. It is foreseen that noble metal self‐assembly brings far‐reaching implications in clinical diagnosis, serving as advanced tools to unlock the power of translational medicine.

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“…NIL has benefited many applications in plasmonic biosensors owing to its advantages of low cost, high throughput and high resolution. Among them, the reusability of the templates reduces the production cost, and the sensor structures can be obtained fast in a large scale [ 57 , 58 ]. Nevertheless, the three advantages of NIL are highly dependent on the templates manufactured by EBL lithography, so it is suitable for mass production of simple three-dimensional structures.…”

Section: Fabrication Of Sensing Structure In Plasmonic Biosensorsmentioning

confidence: 99%

Plasmonic Biosensors with Nanostructure for Healthcare Monitoring and Diseases Diagnosis

Wen

Dong

et al. 2022

Sensors

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Nanophotonics has been widely utilized in enhanced molecularspectroscopy or mediated chemical reaction, which has major applications in the field of enhancing sensing and enables opportunities in developing healthcare monitoring. This review presents an updated overview of the recent exciting advances of plasmonic biosensors in the healthcare area. Manufacturing, enhancements and applications of plasmonic biosensors are discussed, with particular focus on nanolisted main preparation methods of various nanostructures, such as chemical synthesis, lithography, nanosphere lithography, nanoimprint lithography, etc., and describing their respective advances and challenges from practical applications of plasmon biosensors. Based on these sensing structures, different types of plasmonic biosensors are summarized regarding detecting cancer biomarkers, body fluid, temperature, gas and COVID-19. Last, the existing challenges and prospects of plasmonic biosensors combined with machine learning, mega data analysis and prediction are surveyed.

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Well-defined nanostructuring with designable anodic aluminum oxide template

Cited by 18 publications

References 41 publications

Recent Progress on the Development of Magnetically‐Responsive Micropillars: Actuation, Fabrication, and Applications

Recent Progress on the Development of Magnetically‐Responsive Micropillars: Actuation, Fabrication, and Applications

Emerging Biosensors Based on Noble Metal Self‐Assembly for In Vitro Disease Diagnosis

Plasmonic Biosensors with Nanostructure for Healthcare Monitoring and Diseases Diagnosis

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