Microfluidic-Based Synthesis of Magnetic Nanoparticles Coupled with Miniaturized NMR for Online Relaxation Studies

Bemetz, Jonas; Wegemann, Andreas; Saatchi, Katayoun; Haase, Axel; Häfeli, Urs O.; Gleich, Bernhard; Seidel, Michael

doi:10.1021/acs.analchem.8b02374

Cited by 39 publications

(42 citation statements)

References 63 publications

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“…One of the main advantages to this technique is the ability to continuously produce nanoparticles, eliminating batch-to-batch inconsistencies. However, there could be variations in particle properties during long production times, which can be monitored by simple characterization techniques post synthesis, and then proper alterations can be made to correct the inconsistencies [ 67 ]. Additionally, channel fouling is a prevalent issue in many reactors, which can be overcome with channel coatings or changes in channel architecture.…”

Section: Discussionmentioning

confidence: 99%

“…A number of studies have been performed on microfluidic devices manufactured using PDMS [ 66 ], PTFE [ 67 ], and PMMA [ 52 ]. IONPs produced in these microfluidic devices exhibited core sizes of 35 nm for the PDMS-based device and a core size range of 12.3 to 24.6 nm in the PTFE-based device [ 66 , 67 ]. Another study used PTFE, silicone, and glass capillaries to manufacture a tubular microfluidic device with channel diameters of 400 µm for the glass capillaries and 820 µm for the PTFE and 3600 µm for the silicone tubing [ 68 ].…”

Section: Materials Used In the Creation Of Ionp-producing Microflumentioning

confidence: 99%

“…Characterization techniques have been incorporated into the process to provide instant feedback on particle characteristics. NMR has been incorporated into a microfluidic system to provide instant feedback on particle magnetic properties [ 67 ]. With this, it is easy to visualize integrating a dynamic light scattering size analyzer into a microfluidic system to obtain instant feedback on hydrodynamic size.…”

Section: Materials Used In the Creation Of Ionp-producing Microflumentioning

confidence: 99%

“…Higher concentrations of iron in solution means that more nucleation sites can form. It has been observed that increasing iron concentration decreased overall particle hydrodynamic diameter [ 67 ]. This concentration can be controlled by altering the initial solution or by varying the iron solution flow rate, assuming turbulent mixing is not a result.…”

Section: Experimental Design Parameters and Their Control Over Ionmentioning

confidence: 99%

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Microfluidic Synthesis of Iron Oxide Nanoparticles

et al. 2020

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Research efforts into the production and application of iron oxide nanoparticles (IONPs) in recent decades have shown IONPs to be promising for a range of biomedical applications. Many synthesis techniques have been developed to produce high-quality IONPs that are safe for in vivo environments while also being able to perform useful biological functions. Among them, coprecipitation is the most commonly used method but has several limitations such as polydisperse IONPs, long synthesis times, and batch-to-batch variations. Recent efforts at addressing these limitations have led to the development of microfluidic devices that can make IONPs of much-improved quality. Here, we review recent advances in the development of microfluidic devices for the synthesis of IONPs by coprecipitation. We discuss the main architectures used in microfluidic device design and highlight the most prominent manufacturing methods and materials used to construct these microfluidic devices. Finally, we discuss the benefits that microfluidics can offer to the coprecipitation synthesis process including the ability to better control various synthesis parameters and produce IONPs with high production rates.

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Section: Discussionmentioning

confidence: 99%

Section: Materials Used In the Creation Of Ionp-producing Microflumentioning

confidence: 99%

Section: Materials Used In the Creation Of Ionp-producing Microflumentioning

confidence: 99%

Section: Experimental Design Parameters and Their Control Over Ionmentioning

confidence: 99%

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Microfluidic Synthesis of Iron Oxide Nanoparticles

et al. 2020

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“…3D microfluidic structure was bonded by a lamination process using mild pressure with a roller and foils coated with an adhesive. Our strategy is to develop highly flexible plastic microreactors without masks and molds (Bemetz et al 2018). The advantage is that cleanroom requirements due to the absence of lithographic methods are eliminated.…”

Section: Introductionmentioning

confidence: 99%

Strategy for fast manufacturing of 3D hydrodynamic focusing multilayer microfluidic chips and its application for flow-based synthesis of gold nanoparticles

Wang

Seidel

2021

Microfluid Nanofluid

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Fabrication of 3D microfluidic devices is normally quite expensive and tedious. A strategy was established to rapidly and effectively produce multilayer 3D microfluidic chips which are made of two layers of poly(methyl methacrylate) (PMMA) sheets and three layers of double-sided pressure sensitive adhesive (PSA) tapes. The channel structures were cut in each layer by cutting plotter before assembly. The structured channels were covered by a PMMA sheet on top and a PMMA carrier which contained threads to connect with tubing. A large variety of PMMA slides and PSA tapes can easily be designed and cut with the help of a cutting plotter. The microfluidic chip was manually assembled by a simple lamination process.The complete fabrication process from device design concept to working device can be completed in minutes without the need of expensive equipment such as laser, thermal lamination, and cleanroom. This rapid frabrication method was applied for design of a 3D hydrodynamic focusing device for synthesis of gold nanoparticles (AuNPs) as proof-of-concept. The fouling of AuNPs was prevented by means of a sheath flow. Different parameters such as flow rate and concentration of reagents were controlled to achieve AuNPs of various sizes. The sheet-based fabrication method offers a possibility to create complex microfluidic devices in a rapid, cheap and easy way.

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Microfluidic Synthesis of Functional Nanoparticles

Han

Jiang

2019

Nanotechnology and Microfluidics

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Microfluidic-Based Synthesis of Magnetic Nanoparticles Coupled with Miniaturized NMR for Online Relaxation Studies

Cited by 39 publications

References 63 publications

Microfluidic Synthesis of Iron Oxide Nanoparticles

Microfluidic Synthesis of Iron Oxide Nanoparticles

Strategy for fast manufacturing of 3D hydrodynamic focusing multilayer microfluidic chips and its application for flow-based synthesis of gold nanoparticles

Microfluidic Synthesis of Functional Nanoparticles

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