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Journal articles on the topic 'N-methyl-morpholine N-oxide'

Author: Grafiati
Published: 4 June 2021
Last updated: 15 February 2022

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1

Potthast, A., T. Rosenau, P. Kosma, N. Schelosky, and T. Baldinger. "Thermal Reactions of N-Methyl-morpholine-N-oxide (NMMO): A General Method for Separation and Quantification of N-Methyl-morpholine-N-oxide and its Main Degradation Products N-Methylmorpholine and Morpholine by Capillary Electrophoresis (CE)." Holzforschung 54, no. 6 (October 25, 2000): 641–46. http://dx.doi.org/10.1515/hf.2000.108.

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Summary A general analytical method based on capillary electrophoresis with indirect UV detection has been developed to separate and quantify N-methylmorpholine-N-oxide (NMMO) and its main degradation products N-methylmorpholine (NMM) and morpholine (M). The electrolyte is based on the two major components 4-methylbenzylamine and 2-hydroxy-2-methylpropanoic acid (hydroxy-isobutyric acid, HIBA), the latter being used to adjust the pH to a value below 3.5 which is crucial for the electrophoretic mobility and, thus, for a good detectability of the amine oxide. The present method is widely applica
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2

Kim, Dong Bok, Wha Seop Lee, Seong Mu Jo, Young Moo Lee, and Byoung Chul Kim. "Phase Transition of Cellulose Solutions in N-Methyl Morpholine N-Oxide Hydrates." Polymer Journal 33, no. 1 (January 2001): 18–26. http://dx.doi.org/10.1295/polymj.33.18.

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3

Zhou, Shuang, Li Zhou, Ying Li, Fei Xie, He Li, Hui Yang, Wenjiang Li, and Rony Snyders. "Preparation of cellulose-graphene oxide aerogels with N -methyl morpholine-N -oxide as a solvent." Journal of Applied Polymer Science 135, no. 15 (December 27, 2017): 46152. http://dx.doi.org/10.1002/app.46152.

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4

Brøgger, Anja Funch, John Mitchell, Nagamani Koganti, Angelina Swali, and Sandra Hill. "Can pasting in N-methyl morpholine N-oxide (NMMO) differentiate between tapioca starches?" Starch - Stärke 67, no. 11-12 (September 18, 2015): 985–88. http://dx.doi.org/10.1002/star.201500084.

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5

Freddi, G., G. Pessina, and M. Tsukada. "Swelling and dissolution of silk fibroin (Bombyx mori) in N-methyl morpholine N-oxide." International Journal of Biological Macromolecules 24, no. 2-3 (March 1999): 251–63. http://dx.doi.org/10.1016/s0141-8130(98)00087-7.

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6

Farhat, Farhat, Giovanni Vitali, and Gianfrancesco Berchiesi. "Ternary system composed of H2O, N-methyl morpholine N-oxide and CF3COONa: Ultrasonic investigation." Journal of Molecular Liquids 59, no. 1 (January 1994): 59–64. http://dx.doi.org/10.1016/0167-7322(94)80010-3.

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7

Chanzy, H., M. Paillet, and R. Hagège. "Spinning of cellulose from N-methyl morpholine N-oxide in the presence of additives." Polymer 31, no. 3 (March 1990): 400–405. http://dx.doi.org/10.1016/0032-3861(90)90376-a.

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8

Zeng, Tong, Xun Ke, Lijuan Li, Xinlei Cheng, Yonghao Ni, Xinhua Ouyang, Xingye Zhang, Lihui Chen, Liulian Huang, and Hui-Chao Hu. "Quantification of N-methyl morpholine N-oxide in biorefinery process solution by headspace gas chromatography." Cellulose 27, no. 12 (May 29, 2020): 6861–70. http://dx.doi.org/10.1007/s10570-020-03259-7.

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9

Xu, Ying, Yaopeng Zhang, Huili Shao, and Xuechao Hu. "Solubility and rheological behavior of silk fibroin (Bombyx mori) in N-methyl morpholine N-oxide." International Journal of Biological Macromolecules 35, no. 3-4 (April 2005): 155–61. http://dx.doi.org/10.1016/j.ijbiomac.2004.11.008.

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10

Ramakrishnan, S., J. Collier, R. Oyetunji, B. Stutts, and R. Burnett. "Enzymatic hydrolysis of cellulose dissolved in N-methyl morpholine oxide/water solutions." Bioresource Technology 101, no. 13 (July 2010): 4965–70. http://dx.doi.org/10.1016/j.biortech.2009.09.002.

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11

Sayyed, Anwar J., Lalaso V. Mohite, Niteen A. Deshmukh, and Dipak V. Pinjari. "Effect of ultrasound treatment on swelling behavior of cellulose in aqueous N-methyl-morpholine-N-oxide solution." Ultrasonics Sonochemistry 49 (December 2018): 161–68. http://dx.doi.org/10.1016/j.ultsonch.2018.07.042.

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12

Sayyed, Anwar J., Lalaso V. Mohite, Niteen A. Deshmukh, and Dipak V. Pinjari. "Swelling kinetic study with mathematical modeling of cellulose pulp in aqueous N-methyl-morpholine-N-oxide solution." Reaction Kinetics, Mechanisms and Catalysis 133, no. 1 (May 31, 2021): 101–15. http://dx.doi.org/10.1007/s11144-021-02000-0.

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13

Zhang, Shaokai, Chunxia Chen, Chao Duan, Huichao Hu, Hailong Li, Jianguo Li, Yishan Liu, Xiaojuan Ma, Jaroslav Stavik, and Yonghao Ni. "Regenerated cellulose by the Lyocell process, a brief review of the process and properties." BioResources 13, no. 2 (March 13, 2018): 4577–92. http://dx.doi.org/10.15376/biores.13.2.zhang.

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Lyocell fiber has emerged as an important class of regenerated cellulose that is produced based on the N-methyl morpholine-N-oxide (NMMO) dissolution method, and it has unique properties compared to viscose fiber. The NMMO technology provides a simple, resource-conserving, and environmentally friendly method for producing regenerated cellulose fiber. In this paper, the manufacturing process, environmental impact, and product quality of lyocell fiber are reviewed and compared with those of the conventional viscose fiber.
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14

Koganti, Nagamani, John Mitchell, William MacNaughtan, Sandra Hill, and Tim Foster. "Effect of granule organisation on the behaviour of starches in the NMMO (N-methyl morpholine N-oxide) solvent system." Carbohydrate Polymers 116 (February 2015): 103–10. http://dx.doi.org/10.1016/j.carbpol.2014.06.060.

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15

Marsano, Enrico, Paola Corsini, Cristina Arosio, Alessandra Boschi, Michele Mormino, and Giuliano Freddi. "Wet spinning of Bombyx mori silk fibroin dissolved in N-methyl morpholine N-oxide and properties of regenerated fibres." International Journal of Biological Macromolecules 37, no. 4 (December 2005): 179–88. http://dx.doi.org/10.1016/j.ijbiomac.2005.10.005.

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16

Yau, E., K. Badal, G. Brodeur, J. Collier, J. Telotte, and S. Ramakrishnan. "Enzymatic Hydrolysis ofN-Methyl Morpholine N-oxide and Ionic Liquid-treated Cellulose: A Comparative Study." Indian Chemical Engineer 55, no. 4 (December 2013): 235–46. http://dx.doi.org/10.1080/00194506.2013.851993.

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17

Kim, Dong Bok, Wha Seop Lee, Seong Mu Jo, Young Moo Lee, and Byoung Chul Kim. "Effect of Thermal History on the Phase Behavior of N-Methyl Morpholine N-Oxide Hydrates and Their Solutions of Cellulose." Polymer Journal 33, no. 2 (February 2001): 139–46. http://dx.doi.org/10.1295/polymj.33.139.

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18

Righi, Serena, Andrea Morfino, Paola Galletti, Chiara Samorì, Alessandro Tugnoli, and Carlo Stramigioli. "Comparative cradle-to-gate life cycle assessments of cellulose dissolution with 1-butyl-3-methylimidazolium chloride and N-methyl-morpholine-N-oxide." Green Chem. 13, no. 2 (2011): 367–75. http://dx.doi.org/10.1039/c0gc00647e.

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19

Yuan, Hongmei, Jianfei Wu, Junkang Lin, Liulian Huang, Lihui Chen, and Shan Lin. "Effect of chitosan on membrane formation and processability of bamboo dissolving pulp based ultrafiltration membrane." BioResources 16, no. 3 (May 6, 2021): 4752–68. http://dx.doi.org/10.15376/biores.16.3.4752-4768.

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Bamboo dissolving pulp (BP)/chitosan (CS) blend solutions were obtained by adding different weight ratios of BP and CS particles to N-methyl-morpholine-N-oxide (NMMO) solvent. The processing and membrane-forming performances of the blend solutions were studied using a rotating rheometer. The BP/CS blend solutions’ optimal processing temperature was 50 to 70 °C. When the CS weight ratio was 9.09 wt%, the viscosity of the solution decreased, which was conducive to the processing of the membrane. The BP/CS blend ultrafiltration membranes were prepared by phase transformation of the blend solution
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20

Siadat, Seyedeh Ameneh, and Javad Mokhtari. "The Role of Polyhexamethylene Biguanide and Silver Nanoparticle Interaction in the Fabrication of Novel Antibacterial Bio-Fibers Using Silk Wastage." Journal of Nano Research 43 (September 2016): 63–72. http://dx.doi.org/10.4028/www.scientific.net/jnanor.43.63.

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Regenerated silk fibers were fabricated through dry-wet spinning process using N-methyl morpholine N-oxide and methanol as solvent and coagulant, respectively. Several concentrations of polyhexamethylene biguanide (PHMB) (0.5, 0.75 and 1% (v/v)) and silver nanoparticles (AgNPs) (5, 15, 55, 95 and 135 ppm) were used as antibacterial agents. Antibacterial property of bio-fibers produced by either master batch or dipping process methods was compared to each other against a gram-positive bacterium, Staphylococcus aurous. Master batch process was indicated the dependency of antibacterial effect on
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21

Shafiei, Marzieh, Keikhosro Karimi, Hamid Zilouei, and Mohammad J. Taherzadeh. "Enhanced Ethanol and Biogas Production from Pinewood by NMMO Pretreatment and Detailed Biomass Analysis." BioMed Research International 2014 (2014): 1–10. http://dx.doi.org/10.1155/2014/469378.

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N-Methyl morpholine-N-oxide (NMMO) is an environmentally friendly and commercially applied cellulose solvent that is suggested for pretreatment of lignocelluloses to improve biofuel productions. However, the underlying mechanisms of the improvements have been poorly understood yet. In an attempt to investigate the mechanisms, pinewood powder and chips were pretreated with 85% (w/w) NMMO at 120°C for 1–15 h. The pretreatment improved ethanol production yield from 7.2% (g/g) for the untreated wood powder to 68.1–86.1% (g/g) and from 1.7% (g/g) for the untreated wood chips to 12.6–51.2% (g/g) of
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22

Kwon, N. S., D. J. Stuehr, and C. F. Nathan. "Inhibition of tumor cell ribonucleotide reductase by macrophage-derived nitric oxide." Journal of Experimental Medicine 174, no. 4 (October 1, 1991): 761–67. http://dx.doi.org/10.1084/jem.174.4.761.

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Macrophage-derived nitric oxide (NO) is cytostatic to tumor cells and microbial pathogens. We tested whether one molecular target for the cytostatic action of NO may be ribonucleotide reductase (RR), a rate-limiting enzyme in DNA synthesis. In a concentration-dependent manner, NO gas and lysates of activated macrophages that generated comparable amounts of NO led to the same degree of inhibition of partially purified RR from L1210 mouse lymphoma cells. Lysates from nonactivated macrophages, which do not produce NO, were noninhibitory. With lysates from activated macrophages, RR was protected b
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23

MAGALHÃES, WASHINGTON LUIZ ESTEVES, XIAODONG CAO, MAGALY ALEXANDRA RAMIRES, and LUCIAN A. LUCIA. "Novel all-cellulose composite displaying aligned cellulose nanofibers reinforced with cellulose nanocrystals." April 2011 10, no. 4 (May 1, 2011): 19–25. http://dx.doi.org/10.32964/tj10.4.19.

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Aligned cellulose nanocrystals/cellulose coelectrospun nanofibers were successfully prepared by using a home-built coelectrospinning and collection system. Cellulose I was dissolved in N-methyl morpholine oxide at 120°C and diluted with dimethyl sulfoxide, which was used in the external concentric capillary needle as the sheath (shell) solution. A cellulose nanocrystal suspension obtained by sulfuric acid hydrolysis of cotton fibers was used as the core liquid in the internal concentric capillary needle after transferring from water to dimethyl sulfoxide. The resultant coelectrospun nanocompos
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24

Badshah, Munair, Hanif Ullah, Feng He, Fazli Wahid, Umar Farooq, Mattias Andersson, and Taous Khan. "Development and Evaluation of Drug Loaded Regenerated Bacterial Cellulose-Based Matrices as a Potential Dosage Form." Frontiers in Bioengineering and Biotechnology 8 (December 3, 2020). http://dx.doi.org/10.3389/fbioe.2020.579404.

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Bacterial cellulose (BC) is a highly pure form of cellulose and possesses superior physico-mechanical properties with wide range of applications. These properties of BC can further be improved by various modifications, including its regeneration from the BC solution. In the current research work, regenerated BC (R-BC) matrices were prepared using N-methyl-morpholine-oxide (NMMO; 50% w/w solution in water) and loaded with model drugs, i.e., famotidine or tizanidine. The characterization of drug loaded regenerated BC (R-BC-drug) matrices was carried out using Fourier transform infrared spectrosc
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25

Zukerman-Schpector, Julio, Mauricio Vega-Teijido, Cristina C. Carvalho, Paulo C. Isolani, and Ignez Caracelli. "Structure characterization of molecular complexes for non-linear optical materials. II. 1 : 1 complexes of 4-methyl-morpholine-N-oxide (1) and 3-picoline-N-oxide (2) with 2,4,6-trinitrophenol, studied by X-ray, AM1 and DFT calculations." Zeitschrift für Kristallographie 222, no. 8 (January 2007). http://dx.doi.org/10.1524/zkri.2007.222.8.427.

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