Designing Micro- and Nanoswimmers for Specific Applications

Katuri, Jaideep; Ma, Xing; Stanton, Morgan M.; Sánchez, Samuel

doi:10.1021/acs.accounts.6b00386

Cited by 246 publications

(167 citation statements)

References 83 publications

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“…In this Communication we exploit spherical self‐propelled silica‐platinum Janus particles, that were initially characterized by Howse et al. . These micron‐scale particles are capable of swimming using chemical catalysis when immersed in a peroxide solution.…”

Section: Methodsmentioning

confidence: 99%

Active Particle Accumulation at Boundaries: A Strategy to Measure Contact Angles

Simmchen

Malgaretti

2017

ChemNanoMat

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Wetting properties of a substrate are mostly evaluated through the contact angle of droplets on these substrates, a method that works perfectly for a broad range of cases. However, in specific cases it might be difficult to macroscopically measure the contact angle and our experiments show that the behavior of active colloids when approaching edges of liquid–solid interfaces can provide additional information. Here, we present experimental evidence and a simple, geometric model to capture this behavior.

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Section: Methodsmentioning

confidence: 99%

Active Particle Accumulation at Boundaries: A Strategy to Measure Contact Angles

Simmchen

Malgaretti

2017

ChemNanoMat

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“…The motion of self‐propelled micromotors in extremely small sample volumes for (bio)sensing purposes is one of the most exciting areas in contemporary analytical chemistry . Nano/micromachines with different propulsion mechanisms such as ultrasonic, magnetic, and fuel propulsion have been reported …”

Section: Introductionmentioning

confidence: 99%

Magnetic Reduced Graphene Oxide/Nickel/Platinum Nanoparticles Micromotors for Mycotoxin Analysis

Molinero-Fernández

Jodra

Moreno‐Guzmán

et al. 2018

Chemistry A European J

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Magnetic reduced graphene oxide/nickel/platinum nanoparticles (rGO/Ni/PtNPs) micromotors for mycotoxin analysis in food samples were developed for food-safety diagnosis. While the utilization of self-propelled micromotors in bioassays has led to a fundamentally new approach, mainly due to the greatly enhanced target-receptor contacts owing to their continuous movement around the sample and the associated mixing effect, herein the magnetic properties of rGO/Ni/PtNPs micromotors for mycotoxin analysis are additionally explored. The micromotor-based strategy for targeted mycotoxin biosensing focused on the accurate control of micromotor-based operations: 1) on-the-move capture of free aptamers by exploiting the adsorption (outer rGO layer) and catalytic (inner PtNPs layer) properties and 2) micromotor stopped flow in just 2 min by exploiting the magnetic properties (intermediate Ni layer). This strategy allowed fumonisin B1 determination with high sensitivity (limit of detection: 0.70 ng mL ) and excellent accuracy (error: 0.05 % in certified reference material and quantitative recoveries of 104±4 % in beer) even in the presence of concurrent ochratoxin A (105-108±8 % in wines). These results confirm the developed approach as an innovative and reliable analytical tool for food-safety monitoring, and confirm the role of micromotors as a new paradigm in analytical chemistry.

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“…[8][9][10][11][12] However, the efficiency of these heterogeneous Fenton-like catalysts is usually found to be lower than its homogeneous counterpart. Thus, the design of heterogeneous catalysts that can effectively harvest solar light and decompose H 2 O 2 into HOc without the need for a pH change is crucial for the practical application of solar Fentonbased wastewater treatments.…”

Section: Introductionmentioning

confidence: 99%

Core–shell microspheres for the ultrafast degradation of estrogen hormone at neutral pH

et al. 2018

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Designing Micro- and Nanoswimmers for Specific Applications

Cited by 246 publications

References 83 publications

Active Particle Accumulation at Boundaries: A Strategy to Measure Contact Angles

Active Particle Accumulation at Boundaries: A Strategy to Measure Contact Angles

Magnetic Reduced Graphene Oxide/Nickel/Platinum Nanoparticles Micromotors for Mycotoxin Analysis

Core–shell microspheres for the ultrafast degradation of estrogen hormone at neutral pH

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