Magnetically Driven Silver‐Coated Nanocoils for Efficient Bacterial Contact Killing

Hoop, Marcus; Shen, Yang; Chen, Xiang‐Zhong; Mushtaq, Fajer; Iuliano, Loredana M.; Sakar, Mahmut Selman; Petruska, Andrew J.; Loessner, Martin J.; Nelson, Bradley J.; Pané, Salvador

doi:10.1002/adfm.201504463

Cited by 129 publications

(96 citation statements)

References 53 publications

(48 reference statements)

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“…In the present work, two environmental applications inherently related to the properties of AgCl were explored: I) degrading organic material such as certain pollutants through photocatalytic properties and II) antibacterial treatment with silver, which is widely known for its antibacterial properties. The benefit of antibacterial‐silver‐employing microswimmers has been recently demonstrated by Pané’s group with silver‐coated helical nanomachines . The photocatalytic activity of AgCl μS was evaluated with an aqueous solution of methyl orange (see Figure a–b).…”

Section: Resultsmentioning

confidence: 99%

“…Catalytic micromotors can be exceptional devices for environmental applications [14] by taking advantage of the spontaneous movement.I nt he presentw ork, two environmental applications inherently relatedt ot he properties of AgCl were explored: I) degradingo rganic material [15] such as certain pollutants [16] through photocatalytic properties and II) antibacterial treatment with silver,w hich is widely known fori ts antibacterial properties.T he benefit of antibacterial-silver-employing microswimmers has been recently demonstrated by PanØ's group with silver-coated helical nanomachines. [17] The photocatalytic activity of AgCl mSw as evaluated with an aqueous solution of methyl orange (see Figure 4a-b). Specifically,t wo different sol- The photocatalytic activity of AgCl mSw as evaluated by testing the photocatalytic degradation of methyl orange(MO) aqueouss olution.…”

Section: Potential Environmental Applicationsmentioning

confidence: 99%

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Dynamics of Novel Photoactive AgCl Microstars and Their Environmental Applications

et al. 2016

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In the field of micromotors many efforts have been taken to find a substitute for peroxide as fuel. While most approaches turn towards other toxic high energy chemicals such as hydrazine, we introduce here an energy source that is widely used in nature: light. Light is an ideal source of energy and some materials, such as AgCl, have the inherent property to transform light energy for chemical processes, which can be used to achieve propulsion. In the case of silver chloride, one process observed after light exposure is surface modification, which leads to the release of ions, generating chemo‐osmotic gradients. Here we present endeavors to use those processes to propel uniquely shaped micro‐objects of microstar morphology with a high surface‐to‐volume ratio, study their dynamics and present approaches to go towards real environmental applications.

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Section: Resultsmentioning

confidence: 99%

Section: Potential Environmental Applicationsmentioning

confidence: 99%

Dynamics of Novel Photoactive AgCl Microstars and Their Environmental Applications

et al. 2016

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Section: Bioinspired Synthetic Microswimmersmentioning

confidence: 99%

Biohybrid and Bioinspired Magnetic Microswimmers

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Bachmann

et al. 2018

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Many motile microorganisms swim and navigate in chemically and mechanically complex environments. These organisms can be functionalized and directly used for applications (biohybrid approach), but also inspire designs for fully synthetic microbots. The most promising designs of biohybrids and bioinspired microswimmers include one or several magnetic components, which lead to sustainable propulsion mechanisms and external controllability. This Review addresses such magnetic microswimmers, which are often studied in view of certain applications, mostly in the biomedical area, but also in the environmental field. First, propulsion systems at the microscale are reviewed and the magnetism of microswimmers is introduced. The review of the magnetic biohybrids and bioinspired microswimmers is structured gradually from mostly biological systems toward purely synthetic approaches. Finally, currently less explored parts of this field ranging from in situ imaging to swarm control are discussed.

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“…Silver nanospecies have been synthesized via a variety of different methods, resulting in the production of different configurations, each possessing a discrete extent of antibacterial activity. Commonly synthesized silver nanospecies include: silver nanowires, silver nanorods, silver nanocubes and silver nanospheres [10][11][12], as well as more recent silver nanocoils [13]. Due to their greater surface area to volume ratio, silver nanospecies offer enhanced characteristics compared to bulk silver [14][15][16], and may therefore serve as an additional weapon in our current antibacterial arsenal.…”

Section: Introductionmentioning

confidence: 99%

Silver Nanowires: Synthesis, Antibacterial Activity and Biomedical Applications

2018

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Abstract:Silver is well known for its antibacterial properties and low toxicity, and it is currently widely used both in the form of ions and of nanoparticles in many diverse products. One-dimensional silver nanowires (AgNWs) have the potential to further enhance the properties of nanosilver-containing products, since they appear to have higher antimicrobial efficacy and lower cytotoxicity. While they are widely used in optics and electronics, more studies are required in order to better understand their behavior in the biological environment and to be able to advance their application in uses such as wound healing, surface coating and drug delivery.

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Magnetically Driven Silver‐Coated Nanocoils for Efficient Bacterial Contact Killing

Cited by 129 publications

References 53 publications

Dynamics of Novel Photoactive AgCl Microstars and Their Environmental Applications

Dynamics of Novel Photoactive AgCl Microstars and Their Environmental Applications

Biohybrid and Bioinspired Magnetic Microswimmers

Silver Nanowires: Synthesis, Antibacterial Activity and Biomedical Applications

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