Research Topic: FTIR spectroscopy

Ni2+ and Cd2+ Biosorption Capacity and Redox-Mediated Toxicity Reduction in Bacterial Strains from Highly Contaminated Soils of Uzbekistan

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Researchers in Uzbekistan discovered three types of bacteria that can remove dangerous heavy metals like cadmium and nickel from contaminated soil. These bacteria work by clinging to the metal particles on their surfaces and even chemically transforming them into less harmful forms. The study found that these bacteria work best at neutral pH and warmer temperatures, making them promising candidates for cleaning up polluted environments naturally and affordably.

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Mushroom and cereal β-D-glucan solid state NMR and FTIR datasets

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This research provides a large database of spectroscopic measurements from β-D-glucans extracted from various mushrooms and cereal grains. The data includes detailed chemical fingerprints obtained through two analytical techniques (NMR and infrared spectroscopy) that can help researchers understand the structure and properties of these beneficial compounds. The dataset is freely available for other scientists to analyze and use for developing new methods or understanding how different mushroom and cereal sources vary in their chemical composition.

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Identification of novel polyethylene-degrading fungi from South African landfill soils: Arthrographis kalrae, Lecanicillium coprophilum, and Didymosphaeria variabile

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Researchers in South Africa discovered three previously unknown fungi that can break down plastic waste, particularly low-density polyethylene used in shopping bags. These fungi were isolated from landfill soils and showed the ability to degrade plastic strips through oxidative processes, with chemical changes detectable using advanced analysis techniques. This discovery offers hope for developing local, biologically-based solutions to South Africa’s serious plastic waste problem.

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