Facile Synthesis and Integration of Poly(vinyl alcohol) Sponge-Supported Metal Nanocatalysts on a Microfluidic Chip Enable a New Continuous Flow Multireactor Nanocatalysis Platform for High Efficiency and Reusability Catalysis

Hu, Kaiqiang; Lei, Ma; Wang, Zonghua; Fernandez‐Delgado, Olivia; Garay, Yahir E.; López, Jörge A.; Li, Xiujun

doi:10.1021/acssuschemeng.2c02060

Cited by 8 publications

(6 citation statements)

References 55 publications

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“…Compared to the conventional spectrophotometric system, the proposed system owns various merits, including portability, simplicity, low‐cost, integrated battery‐powered heating elements instead of external AC power, and low‐reagent consumption (only 10.6 µl of analyte volume needed for the spectroscopic analysis). All these features allow the system ideal for wide applications such as precious chemical reaction characterization, kinetic studies of chemical reactions, and on‐site spectroscopic measurement, especially when handling expensive chemicals as well as in low‐resource settings 36 …”

Section: Discussionmentioning

confidence: 99%

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Portable in situ temperature‐dependent spectroscopy on a low‐cost microfluidic platform integrated with a battery‐powered thermofoil heater

Krishna

Zhou

Tavakoli

et al. 2023

VIEW

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A low‐cost microfluidic platform integrated with a flexible heater was developed for in situ temperature‐dependent spectroscopic measurement at the point of care. After verifying the system by comparing on‐chip spectroscopic measurement of methylene blue with the conventional spectroscopy, we demonstrated its applications in temperature‐dependent absorption spectroscopy of a model biomolecule, curcumin. The system is portable, battery‐powered and requires ultra‐low volumes of analytes, which is highly suitable for point‐of‐care characterization.

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Section: Discussionmentioning

confidence: 99%

“…All these features allow the system ideal for wide applications such as precious chemical reaction characterization, kinetic studies of chemical reactions, and on-site spectroscopic measurement, especially when handling expensive chemicals as well as in low-resource settings. 36 …”

Section: Discussionmentioning

confidence: 99%

Portable in situ temperature‐dependent spectroscopy on a low‐cost microfluidic platform integrated with a battery‐powered thermofoil heater

Krishna

Zhou

Tavakoli

et al. 2023

VIEW

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“…The specific surface area of the sample was calculated by the Brunauer-Emmett-Teller (BET) [41] surface adsorption method through the accelerated surface area and porosimetry system (ASAP) 2020 Sorptometer from Micromeritics by measuring the N 2 adsorption on the surface of the sample. The sample was degassed at 150 • C for 70 min at 10 mm Hg to remove any remaining solvent and ensure complete dryness and emptiness of the pores.…”

Section: Specific Surface Areamentioning

confidence: 99%

Direct Electron Transfer of Glucose Oxidase on Pre-Anodized Paper/Carbon Electrodes Modified through Zero-Length Cross-Linkers for Glucose Biosensors

Henao-Pabon

Gao²,

Prasad

et al. 2023

Biosensors

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A disposable paper-based glucose biosensor with direct electron transfer (DET) of glucose oxidase (GOX) was developed through simple covalent immobilization of GOX on a carbon electrode surface using zero-length cross-linkers. This glucose biosensor exhibited a high electron transfer rate (ks, 3.363 s−1) as well as good affinity (km, 0.03 mM) for GOX while keeping innate enzymatic activities. Furthermore, the DET-based glucose detection was accomplished by employing both square wave voltammetry and chronoamperometric techniques, and it achieved a glucose detection range from 5.4 mg/dL to 900 mg/dL, which is wider than most commercially available glucometers. This low-cost DET glucose biosensor showed remarkable selectivity, and the use of the negative operating potential avoided interference from other common electroactive compounds. It has great potential to monitor different stages of diabetes from hypoglycemic to hyperglycemic states, especially for self-monitoring of blood glucose.

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“…In addition, other low-cost materials have also been reported. For example, sponge was used for thedetection of heavy metal ions in environmental samples (Ding and Lisak, 2019), leveraging the strength of sponge structure and the coupling with other materials for better mechanical properties (Hu et al, 2022;Silva et al, 2022). A few examples of the applications of low-cost porous materials are shown in Figure 3.…”

Section: Other Porous Materialsmentioning

confidence: 99%

Low-cost microfluidics: Towards affordable environmental monitoring and assessment

Mesquita

Gong

Lin

2022

Front. Lab. Chip. Technol.

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Effective environmental monitoring has become a worldwide concern, requiring the development of novel tools to deal with pollution risks and manage natural resources. However, a majority of current assessment methods are still costly and labor-intensive. Thanks to the rapid advancements in microfluidic technology over the past few decades, great efforts have been made to develop miniaturized tools for rapid and efficient environmental monitoring. Compared to traditional large-scale devices, microfluidic approaches provide several advantages such as low sample and energy consumption, shortened analysis time and adaptabilities to onsite applications. More importantly, it provides a low-cost solution for onsite environmental assessment leveraging the ubiquitous materials such as paper and plastics, and cost-effective fabrication methods such as inkjet printing and drawing. At present, devices that are disposable, reproducible, and capable of mass production have been developed and manufactured for a wide spectrum of applications related to environmental monitoring. This review summarizes the recent advances of low-cost microfluidics in the field of environmental monitoring. Initially, common low-cost materials and fabrication technologies are introduced, providing a perspective on the currently available low-cost microfluidic manufacturing techniques. The latest applications towards effective environmental monitoring and assessment in water quality, air quality, soil nutrients, microorganisms, and other applications are then reviewed. Finally, current challenges on materials and fabrication technologies and research opportunities are discussed to inspire future innovations.

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Facile Synthesis and Integration of Poly(vinyl alcohol) Sponge-Supported Metal Nanocatalysts on a Microfluidic Chip Enable a New Continuous Flow Multireactor Nanocatalysis Platform for High Efficiency and Reusability Catalysis

Cited by 8 publications

References 55 publications

Portable in situ temperature‐dependent spectroscopy on a low‐cost microfluidic platform integrated with a battery‐powered thermofoil heater

Portable in situ temperature‐dependent spectroscopy on a low‐cost microfluidic platform integrated with a battery‐powered thermofoil heater

Direct Electron Transfer of Glucose Oxidase on Pre-Anodized Paper/Carbon Electrodes Modified through Zero-Length Cross-Linkers for Glucose Biosensors

Low-cost microfluidics: Towards affordable environmental monitoring and assessment

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