Nitrogen management in the optimization of microbial plastic waste upcycling. [PDF]
Noroozi K +6 more
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Addressing the Oxygen in the Room: Exploring the Formation of Oxygenated Species for Nitazene Analogs Using DART-MS. [PDF]
Hardwick EK, Couch AN, Davidson JT.
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Molecular Transformation of Dissolved Organic Matter at the Coal-Water Interface: Insights from High-Resolution Mass Spectrometry. [PDF]
Wu M, Deng K, Jiang J, Bao Y, Li J.
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Evolution of Rice Storage Quality and Underlying Microstructural Mechanisms Under Varying Nitrogen Fertilization Application Levels. [PDF]
Wen F +7 more
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Study on the structural characteristics of nitrogen-containing compounds in co-pyrolysis tar of low rank coal using <sup>1</sup>H-<sup>15</sup>N HMBC analysis. [PDF]
Zhang Y +11 more
europepmc +1 more source
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Homopolyatomic Nitrogen Compounds
Angewandte Chemie International Edition, 1999New nitrogen compounds with high energy density are getting closer, now that Christe et al. have achieved the synthesis of the N(5)(+) ion. Here the current experimental and theoretical knowledge is presented. According to calculations molecules containing the pentazole unit are the most promising.
openaire +2 more sources
International audienceThe nitrogen compounds in tars were investigated at temperature of 500 degrees C during the pyrolysis of three organic wastes (sewage sludge, food waste, wood) and their mixture, representatives of a common municipal waste.
Debono, Olivier, Villot, Audrey
exaly +2 more sources
Digestion of Nitrogenous Compounds by Ruminants
Nature, 1956THE utilization of nitrogenous compounds by ruminants is known to be affected by a number of factors peculiar to these animals. Among these, the formation and absorption of ammonia in the rumen have become a subject of considerable interest and importance, as it could perhaps result in a significant wastage of nitrogen in the animal's economy1–3.
F V, GRAY, A F, PILGRIM
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Tetrazolylpentazoles: Nitrogen-Rich Compounds
Inorganic Chemistry, 2002Tetrazolylpentazole was identified as an intermediate in the reaction of tetrazolediazonium chloride with lithium azide by low-temperature (15)N NMR spectroscopy. The decomposition of (15)N-labeled tetrazolylpentazole to form (15)N-labeled tetrazoleazides and dinitrogen was followed by low-temperature (15)N NMR spectroscopy.
Anton, Hammerl, Thomas M, Klapötke
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