Rare-metal-free high-performance water-activated paper battery: a disposable energy source for wearable sensing devices

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Abstract

This paper reports the realization of a water-activated magnesium–air paper battery by using only low environmental impact materials and without use of heavy metals.

Abstract

Lightweight, thin paper-based devices are attracting attention due to their portability, lower metal and plastic use, and smaller environmental impact when discarded. For example, paper-based thin diagnostic devices can be mass-produced and their environmental impact after disposal is low, making them promising rapid diagnostic devices for diseases and infectious diseases, especially in developing countries. This report describes a high-performance paper battery activated by water composed of a Mg–air battery with a neutral electrolyte and a safe, high-performance pigment-based electrocatalyst. The paper battery was fabricated by bonding Mg foil to paper and forming a cathode catalyst and gas diffusion layer (GDL) directly on the opposite surface. The fabricated paper battery achieved an OCV of 1.8 V, a 1.0 V current density of 100 mA cm ⁻², and a maximum output of 103 mW cm ⁻². The safety of materials used in the paper battery was also examined. Furthermore, applications of the battery in wearable sensing devices, such as a pulse oximeter (SpO ₂ sensor) and a GPS logger, were also demonstrated.

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Single Atomic Iron Catalysts for Oxygen Reduction in Acidic Media: Particle Size Control and Thermal Activation

Xiaohong Xie, Langli Luo, Stavros Karakalos … (2017)

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Management of validation of HPLC method for determination of acetylsalicylic acid impurities in a new pharmaceutical product

Małgorzata Kowalska, Magdalena M. Woźniak, Michał Kijek … (2022)

The work mainly focused on a validation of the method for determining the content of salicylic acid and individual unknown impurities in new pharmaceutical product—tablets containing: 75, 100 or 150 mg of acetylsalicylic acid and glycine in the amount of 40 mg for each dosage. The separation of the components was carried out by means of HPLC, using a Waters Symmetry C18 column (4.6 × 250 mm, 5 μm) as the stationary phase. The mobile phase consisted of a mixture of 85% orthophosphoric acid, acetonitrile and purified water (2:400:600 V/V/V). Detection was carried out at a wavelength of 237 nm, with a constant flow rate of 1.0 ml min −1 . In order to verify the method, linearity, precision (repeatability and reproducibility), accuracy, specificity, range, robustness, system precision, stability of the test and standard solution, limit of quantification and forced degradation were determined. Validation tests were performed in accordance with ICH (International Conference on Harmonisation of Technical Requirements for Registration of Pharmaceuticals for Human Use) guidelines. The method was validated successfully. It was confirmed that the method in a tested range of 0.005–0.40% salicylic acid with respect to acetylsalicylic acid content is linear, precise and accurate.