nitrogen containing compounds
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Energies ◽  
2022 ◽  
Vol 15 (1) ◽  
pp. 364
Author(s):  
Saqib Sohail Toor ◽  
Ayaz Ali Shah ◽  
Kamaldeep Sharma ◽  
Tahir Hussain Seehar ◽  
Thomas Helmer Pedersen ◽  
...  

In the present study, the protein-extracted grass residue (press cake) was processed through hydrothermal liquefaction under sub and supercritical temperatures (300, 350 and 400 °C) with and without using a potassium carbonate catalyst. The results revealed that bio-crude yield was influenced by both temperature and the catalyst. The catalyst was found to be effective at 350 °C (350 Cat) for enhancing the bio-crude yield, whereas supercritical state in both catalytic and non-catalytic conditions improved the quality of bio-crude with reasonable HHVs (33 to 36 MJ/kg). The thermal behaviour of bio-crude was analysed and higher volatile contents (more than 50% under the range of 350 °C) were found at supercritical conditions. The overall TOC values in the residual aqueous phase varied from 22 to 38 g/L. Higher carbon loss was noticed in the aqueous phase in supercritical conditions. Furthermore, GCMS analysis showed ketones, acids and ester, aromatics and hydrocarbon with negligible nitrogen-containing compounds in bio-crude. In conclusion, the catalytic conversion of grass residue under subcritical conditions (350 Cat) is favourable in terms of high bio-crude yield, however, supercritical conditions promote the deoxygenation of oxygen-containing compounds in biomass and thus improve HHVs of bio-crude.


2022 ◽  
Author(s):  
Z.-W. Hou ◽  
H.-C. Xu

Nitrogen-centered radicals are versatile reactive intermediates for organic synthesis. This chapter describes recent progress in the electrochemical generation and reactions of nitrogen-centered radicals. Under electrochemical conditions, various nitrogen-centered radicals are generated through electrolysis of readily available precursors such as N—H bonds or azides. These reactive intermediates undergo addition reactions to π-systems or hydrogen-atom abstraction to generate various nitrogen-containing compounds.


Polymers ◽  
2021 ◽  
Vol 14 (1) ◽  
pp. 8
Author(s):  
Hadeer Q. Waleed ◽  
Marcell Csécsi ◽  
Rachid Hadjadj ◽  
Ravikumar Thangaraj ◽  
Dániel Pecsmány ◽  
...  

Polyurethanes (PUs) are widely used in different applications, and thus various synthetic procedures including one or more catalysts are applied to prepare them. For PU foams, the most important catalysts are nitrogen-containing compounds. Therefore, in this work, the catalytic effect of eight different nitrogen-containing catalysts on urethane formation will be examined. The reactions of phenyl isocyanate (PhNCO) and methanol without and in the presence of catalysts have been studied and discussed using the G3MP2BHandHLYP composite method. The solvent effects have also been considered by applying the SMD implicit solvent model. A general urethane formation mechanism has been proposed without and in the presence of the studied catalysts. The proton affinities (PA) were also examined. The barrier height of the reaction significantly decreased (∆E0 > 100 kJ/mol) in the presence of the studied catalysts, which proves the important effect they have on urethane formation. The achieved results can be applied in catalyst design and development in the near future.


Materials ◽  
2021 ◽  
Vol 14 (24) ◽  
pp. 7901
Author(s):  
Adriana Dowbysz ◽  
Mariola Samsonowicz ◽  
Bożena Kukfisz

This paper presents a review of flame retardants used for glass/polyester laminates. It concerns flame retardants withdrawn from use such as compounds containing halogen atoms and flame retardants currently used in the industry, such as inorganic hydroxides, phosphorus and nitrogen-containing compounds, antimony, and boron compounds, as well as tin–zinc compounds. Attention is also drawn to the use of nanoclays and the production of nanocomposites, intumescent flame retardant systems, and mats, as well as polyhedral oligomeric silsesquioxanes. The paper discusses the action mechanism of particular flame retardants and presents their advantages and disadvantages.


2021 ◽  
Vol 23 ◽  
Author(s):  
Zhengyu Zhang ◽  
Ying Peng ◽  
Jiang Zheng

: Reactive metabolites (RMs) are products generated from the metabolism of endogenous and exogenous substances. RMs are characterized as electrophilic species chemically reactive to nucleophiles. Those nucleophilic species may be nitrogen-containing bio-molecules, including macro-biomolecules, such as protein and DNA, and small biomolecules, i.e., amino acids (AAs) and biogenic amines (BAs). AAs and BAs are essential endogenous nitrogen-containing compounds required for normal development, metabolism, and physiological functions in organisms, through participating in the intracellular replication, transcription, translation, division and proliferation, DNA and protein synthesis, regulation of apoptosis, and intercellular communication activities. These biological amines containing an active lone pair of electrons on the electronegative nitrogen atom would be the proper N-nucleophiles to be attacked by the abovementioned RMs. This review covers an overview of adductions of AAs and BAs with varieties of RMs. These RMs are formed from metabolic activation of furans, naphthalene, benzene, and products of lipid peroxidation. This article is designed to provide readers with a better understanding of biochemical mechanisms of toxic action.


Molecules ◽  
2021 ◽  
Vol 26 (24) ◽  
pp. 7566
Author(s):  
Ruowen Liang ◽  
Shihui Wang ◽  
Yi Lu ◽  
Guiyang Yan ◽  
Zhoujun He ◽  
...  

Effectively reducing the concentration of nitrogen-containing compounds (NCCs) remains a significant but challenging task in environmental restoration. In this work, a novel step-scheme (S-scheme) SnO2@MCr heterojunction was successfully fabricated via a facile hydrothermal method. At this heterojunction, MIL-101(Cr) octahedrons are decorated with highly dispersed SnO2 quantum dots (QDs, approximate size 3 nm). The QDs are evenly wrapped around the MIL-101(Cr), forming an intriguing zero-dimensional/three-dimensional (0D/3D) S-scheme heterostructure. Under simulated sunlight irradiation (280 nm < λ < 980 nm), SnO2@MCr demonstrated superior photoactivity toward the denitrification of pyridine, a typical NCC. The adsorption capacity and adsorption site of SnO2@MCr were also investigated. Tests using 20%SnO2@MCr exhibited much higher activity than that of pure SnO2 and MIL-101(Cr); the reduction ratio of Cr(VI) is rapidly increased to 95% after sunlight irradiation for 4 h. The improvement in the photocatalytic activity is attributed to (i) the high dispersion of SnO2 QDs, (ii) the binding of the rich adsorption sites with pyridine molecules, and (iii) the formation of the S-scheme heterojunction between SnO2 and MIL-101(Cr). Finally, the photocatalytic mechanism of pyridine was elucidated, and the possible intermediate products and degradation pathways were discussed.


2021 ◽  
Author(s):  
Matthias Schmidt ◽  
Allison N. Pearson ◽  
Matthew R. Incha ◽  
Mitchell G. Thompson ◽  
Edward E. K. Baidoo ◽  
...  

Pseudomonas putida KT2440 has long been studied for its diverse and robust metabolisms, yet many genes and proteins imparting these growth capacities remain uncharacterized. Using pooled mutant fitness assays, we identified genes and proteins involved in the assimilation of 52 different nitrogen containing compounds. To assay amino acid biosynthesis, 19 amino acid drop-out conditions were also tested. From these 71 conditions, significant fitness phenotypes were elicited in 672 different genes including 100 transcriptional regulators and 112 transport-related proteins. We divide these conditions into 6 classes, and propose assimilatory pathways for the compounds based on this wealth of genetic data. To complement these data, we characterize the substrate range of three promiscuous aminotransferases relevant to metabolic engineering efforts in vitro. Furthermore, we examine the specificity of five transcriptional regulators, explaining some fitness data results and exploring their potential to be developed into useful synthetic biology tools. In addition, we use manifold learning to create an interactive visualization tool for interpreting our BarSeq data, which will improve the accessibility and utility of this work to other researchers.


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