Opto-Microfluidic Integration of the Bradford Protein Assay in Lithium Niobate Lab-on-a-Chip

Zanini, Leonardo; Zaltron, Annamaria; Turato, Enrico; Zamboni, Riccardo; Sada, Cinzia

doi:10.3390/s22031144

Cited by 9 publications

(2 citation statements)

References 39 publications

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“…There occurs a visible colour change when the anionic form of the dye is stabilized by hydrophobic and ionic interactions. Over a 10fold concentration range, the extinction coefficient of a dye-albumin complex solution is constant, thereby making the assay useful (Zanini et al, 2022).…”

Section: Protein Estimation Assaymentioning

confidence: 99%

Phytochemical Screening and Analysis of Antioxidant Activity from The Botanical Extract of The Plant Martynia Annua

R. Sonia Palaramb,

M. Thenmozhi,

B. Prakash

2023

J. Adv. Zool.

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Medicinal plants, enriched by nature with potent compounds, hold great promise in developing natural drugs with minimal side effects. This study focuses on Martynia annua, a plant species renowned for its medicinal potential. We aimed to identify and quantify phytochemicals in its leaf extracts and evaluate their in vitro antioxidant activity. Methanol, hexane, and water were used as solvents for extraction. Qualitative analysis revealed a range of pharmacologically active phytochemicals, including alkaloids, carbohydrates, glycosides, saponins, proteins, amino acids, phenols, fixed oils, and terpenoids. Methanolic extract exhibited the highest diversity, with eight distinct compounds. Quantitative analysis showed that methanolic extract contained the most phenols (0.5 mg/g) and carbohydrates (12 mg/g), while hexane had the highest flavonoid content (319 mg/g), and aqueous extract displayed the most protein (53.57 mg/g). Antioxidant assays demonstrated the superior performance of methanolic extract, with maximum inhibitory percentages of 92.99% (DPPH), 94.28% (FRAP), 76.11% (ion chelating), and an IC50 value of 52.17 µg/ml, indicating its remarkable antioxidant potential. These findings underscore Martynia annua as a valuable source for phytochemicals with significant antioxidant properties, particularly in the methanolic leaf extract, holding promise for future therapeutic developments."

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Section: Protein Estimation Assaymentioning

confidence: 99%

Phytochemical Screening and Analysis of Antioxidant Activity from The Botanical Extract of The Plant Martynia Annua

R. Sonia Palaramb,

M. Thenmozhi,

B. Prakash

2023

J. Adv. Zool.

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“…Recently, the development of new opto-microfluidic sensing devices [1][2][3][4] has gained increasing interest due to the promising features allowed by the combination of microfluidic and optical stages on the same platform, that addresses the need for integrating in the same portable device several tools which carry out different tasks, e.g., manipulation of droplets, sensing of refractive index [5] and pH, [6] targets identification and sorting. [7] In particular, the manipulation of droplets in microfluidic systems is a wide and complex field.…”

Section: Introductionmentioning

confidence: 99%

Photo‐Induced Electric Field Effects on Water Droplets Generated in a LiNbO₃ Opto‐Microfluidic Platform

Bragato,

Zaltron,

Zanardi

et al. 2024

Adv Materials Inter

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In this work, droplets elongation as a result of the photo‐induced photovoltaic electric field is presented and modeled. Moving water droplets are generated in microfluidics channels by means of a droplet‐based opto‐microfluidic platform integrated in lithium niobate (LN). A cross‐junction is engraved on the substrate as droplets generator, on top of which a z‐cut iron‐doped lithium niobate (Fe:LN) crystal is placed in order to build up photo‐induced electric field as a result of photovoltaic effect promoted upon suitable illumination. Droplets detection is realized by optical waveguides, designed in a Mach‐Zehnder Interferometer (MZI) configuration on the same substrate. The dynamics of droplet elongation is investigated, highlighting the impact of the photovoltaic electric field on the droplet dimension and surface tension.

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Optoelectric‐Driven Wetting Transition on Artificially Micropatterned Surfaces With Long‐Range Virtual Electrodes

Zamboni,

Ray,

Denz

et al. 2024

Adv Materials Inter

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The manipulation of droplets and wetting properties is crucial in many applications that involve surface‐liquid interactions, especially on artificial superhydrophobic substrates. This study presents an active optoelectronic method to achieve transport and transition between two wetting states on patterned surfaces, namely Cassie–Baxter (CB) and Wenzel (W). The approach employs a photovoltaic iron‐doped lithium niobate crystal placed on the bottom of a micropatterned substrate without any adhesive or sticky bonding. Taking advantage of the bulk photovoltaic effect, charge separation can be induced by light inside the crystal, thus leading to virtual electrodes. The long‐range interaction between these virtual electrodes and the droplets on the top of the substrate allows for transitions between wetting states and droplet transport. Superhydrophobic wetting transitions between Cassie–Baxter and Wenzel are observed on different substrates using this technique. The forces acting on the droplet that cause the transition are determined numerically. The evolution of droplet deformation and contact angle during the generation of the virtual electrode depends on the shape and intensity of the light beam used for photoinduction, as well as on the compositional properties of the crystal.

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Opto-Microfluidic Integration of the Bradford Protein Assay in Lithium Niobate Lab-on-a-Chip

Cited by 9 publications

References 39 publications

Phytochemical Screening and Analysis of Antioxidant Activity from The Botanical Extract of The Plant Martynia Annua

Phytochemical Screening and Analysis of Antioxidant Activity from The Botanical Extract of The Plant Martynia Annua

Photo‐Induced Electric Field Effects on Water Droplets Generated in a LiNbO₃ Opto‐Microfluidic Platform

Optoelectric‐Driven Wetting Transition on Artificially Micropatterned Surfaces With Long‐Range Virtual Electrodes

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Opto-Microfluidic Integration of the Bradford Protein Assay in Lithium Niobate Lab-on-a-Chip

Cited by 9 publications

References 39 publications

Phytochemical Screening and Analysis of Antioxidant Activity from The Botanical Extract of The Plant Martynia Annua

Phytochemical Screening and Analysis of Antioxidant Activity from The Botanical Extract of The Plant Martynia Annua

Photo‐Induced Electric Field Effects on Water Droplets Generated in a LiNbO3 Opto‐Microfluidic Platform

Optoelectric‐Driven Wetting Transition on Artificially Micropatterned Surfaces With Long‐Range Virtual Electrodes

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Photo‐Induced Electric Field Effects on Water Droplets Generated in a LiNbO₃ Opto‐Microfluidic Platform