Dharitri Rath scite author profile

Paper-based microfluidic devices are rapidly becoming popular as a platform for developing point-of-care medical diagnostic tests. However, the design of these devices largely relies on trial and error, owing to a lack of proper understanding of fluid flow through porous membranes. Any porous material having pores of multiple sizes contains partially saturated regions, i.e., regions where less than 100% of the pores are filled with fluid. The capillary pressure and permeability of the material change as a function of the extent of saturation. Although methods to measure these relationships have been developed in other fields of study, these methods have not yet been adapted for paper for use by the larger community of analytical chemists. In the current work, we present a set of experimental methods that can be used to measure the relationships between capillary pressure, permeability, and saturation for any commercially available paper membrane. These experiments can be performed using commonly available lab instruments. We further demonstrate the use of the Richards equation in modeling imbibition into two-dimensional paper networks, thus adding new capability to the field. Predictions of spatiotemporal saturation from the model were in strong agreement with experimental measurements. To make these methods readily accessible to a wide community of chemists, biologists, and clinicians, we present the first report of a simple protocol to measure the flow rates considering the effect of partial saturation. Use of this protocol could drastically reduce the trial and error involved in designing paper-based microfluidic devices.

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HPW-Anchored UiO-66 Metal–Organic Framework: A Promising Photocatalyst Effective toward Tetracycline Hydrochloride Degradation and H₂ Evolution via Z-Scheme Charge Dynamics

Subudhi

et al. 2019

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The abolition of environmental pollutants and production of hydrogen (H2) from water using a heterogeneous photocatalyst is a demanding science of the current scenario to solve the increasing environmental pollution and worldwide energy catastrophe in modern life. To validate this purpose, the design of low-cost and durable semiconductor-based photocatalysts with great light absorption capacity becomes the most challenging issue for researchers. Regarding this, herein the phosphotungstic acid (HPW)-anchored Zr6O4(OH)4(BDC)6 (UiO-66) metal–organic framework (MOF), i.e., HPW@UiO-66, has been prepared by a hydrothermal method and is efficient, stable, and capable of harvesting solar energy toward the degradation of tetracycline hydrochloride (TCH) and H2 production in the presence of a sacrificial donor. The ionic interaction between HPW and UiO-66 plays a key role toward the photostability and charge-transfer mechanism of the composite and is well characterized with X-ray diffraction, UV diffuse-reflectance spectroscopy, Fourier transform infrared, and X-ray photoelectron spectroscopy. A total of 30 wt % HPW@UiO-66 shows a maximum degradation of about 87.24% of a 20 ppm TCH solution in 60 min of solar-light irradiation and about 353.89 μmol/h of H2 production. The conduction- and valence-band potentials are well characterized with Mott–Schottky measurement and a delay charge recombination process through electrochemical impedance spectroscopy. The proposed mediator-free Z-scheme-oriented electron–hole migration route is well supported by photoluminescence, and the scavenger test well explains the better charge-carrier separation and high catalytic performance of the prepared composite. This research will bestow an advantageous blueprint to fabricate novel and challenging photocatalysts toward the photocatalytic treatment of environmental pollutants and H2 evolution.

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The fabrication of Au/Pd plasmonic alloys on UiO-66-NH₂: an efficient visible light-induced photocatalyst towards the Suzuki Miyaura coupling reaction under ambient conditions

Subudhi

Mansingh

Tripathy

et al. 2019

Catal. Sci. Technol.

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Synergistic effects of plasmon induced Ag@Ag₃VO₄/ZnCr LDH ternary heterostructures towards visible light responsive O₂ evolution and phenol oxidation reactions

Sahoo

Patnaik

Rath

et al. 2018

Inorg. Chem. Front.

102

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Dharitri Rath

Amine functionalized MCM-41: An active and reusable catalyst for Knoevenagel condensation reaction

Experimental Measurement of Parameters Governing Flow Rates and Partial Saturation in Paper-Based Microfluidic Devices

HPW-Anchored UiO-66 Metal–Organic Framework: A Promising Photocatalyst Effective toward Tetracycline Hydrochloride Degradation and H₂ Evolution via Z-Scheme Charge Dynamics

The fabrication of Au/Pd plasmonic alloys on UiO-66-NH₂: an efficient visible light-induced photocatalyst towards the Suzuki Miyaura coupling reaction under ambient conditions

Synergistic effects of plasmon induced Ag@Ag₃VO₄/ZnCr LDH ternary heterostructures towards visible light responsive O₂ evolution and phenol oxidation reactions

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Dharitri Rath

Amine functionalized MCM-41: An active and reusable catalyst for Knoevenagel condensation reaction

Experimental Measurement of Parameters Governing Flow Rates and Partial Saturation in Paper-Based Microfluidic Devices

HPW-Anchored UiO-66 Metal–Organic Framework: A Promising Photocatalyst Effective toward Tetracycline Hydrochloride Degradation and H2 Evolution via Z-Scheme Charge Dynamics

The fabrication of Au/Pd plasmonic alloys on UiO-66-NH2: an efficient visible light-induced photocatalyst towards the Suzuki Miyaura coupling reaction under ambient conditions

Synergistic effects of plasmon induced Ag@Ag3VO4/ZnCr LDH ternary heterostructures towards visible light responsive O2 evolution and phenol oxidation reactions

Contact Info

Product

Resources

About

HPW-Anchored UiO-66 Metal–Organic Framework: A Promising Photocatalyst Effective toward Tetracycline Hydrochloride Degradation and H₂ Evolution via Z-Scheme Charge Dynamics

The fabrication of Au/Pd plasmonic alloys on UiO-66-NH₂: an efficient visible light-induced photocatalyst towards the Suzuki Miyaura coupling reaction under ambient conditions

Synergistic effects of plasmon induced Ag@Ag₃VO₄/ZnCr LDH ternary heterostructures towards visible light responsive O₂ evolution and phenol oxidation reactions