Gotowa bibliografia na temat „Anthracene sulfonic acid (ASA)”
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Artykuły w czasopismach na temat "Anthracene sulfonic acid (ASA)":
Klink, Michael, Richard Akinyeye, Vernon Somerset, Mantoa Sekota, Priscilla Gloria Lorraine Baker i Emmanuel Iheanyechukwu Iwuoha. "Electrochemical and Spectroscopic Dynamics of Nanostructured Polynuclear Sulphonic Acid-Doped Poly(2, 5-dimethoxyaniline)". Materials Science Forum 657 (lipiec 2010): 231–48. http://dx.doi.org/10.4028/www.scientific.net/msf.657.231.
Liu, Yulong, i Xiufu Hua. "Degradation of acenaphthylene and anthracene by chemically modified laccase from Trametes versicolor". RSC Adv. 4, nr 59 (2014): 31120–22. http://dx.doi.org/10.1039/c4ra02807d.
Ancha, Hanumantha R., Ravi R. Kurella, Christine C. McKimmey, Stanley Lightfoot i Richard F. HartY. "Luminal Antioxidants Enhance the Effects of Mesalamine in the Treatment of Chemically Induced Colitis in Rats". Experimental Biology and Medicine 233, nr 10 (październik 2008): 1301–8. http://dx.doi.org/10.3181/0805-rm-140.
Gaafar, Alaa A., Sami I. Ali, Mohamed A. El-Shawadfy, Zeinab A. Salama, Agnieszka Sękara, Christian Ulrichs i Magdi T. Abdelhamid. "Ascorbic Acid Induces the Increase of Secondary Metabolites, Antioxidant Activity, Growth, and Productivity of the Common Bean under Water Stress Conditions". Plants 9, nr 5 (14.05.2020): 627. http://dx.doi.org/10.3390/plants9050627.
Park, Heejung, Wooseong Kim, Dayoon Kim, Seongkeun Jeong i Yunjin Jung. "Mesalazine Activates Adenosine Monophosphate-activated Protein Kinase: Implication in the Anti-inflammatory Activity of this Anti-colitic Drug". Current Molecular Pharmacology 12, nr 4 (15.10.2019): 272–80. http://dx.doi.org/10.2174/1874467212666190308103448.
Sun, Yue, Xiao Li, Weisheng Zheng, Xinchun Ding i Rajendra Prasad Singh. "Effect of Functional Group Density of Anion Exchange Resins on Removal of p-Toluene Sulfonic Acid from Aqueous Solution". Applied Sciences 10, nr 1 (18.12.2019): 1. http://dx.doi.org/10.3390/app10010001.
Soare, Rodica, Maria Dinu, Cristina Babeanu i Marin Soare. "Evaluation and comparison of antioxidant activity and biochemical compounds in some coloured potato cultivars". Plant, Soil and Environment 66, No. 6 (23.06.2020): 281–86. http://dx.doi.org/10.17221/202/2020-pse.
Kundu, Sudipta K., Ramana Singuru, Taku Hayashi, Yuh Hijikata, Stephan Irle i John Mondal. "Constructing Sulfonic Acid Functionalized Anthracene Derived Conjugated Porous Organic Polymer for Efficient Metal-Free Catalytic Acetalization of Bio-Glycerol". ChemistrySelect 2, nr 17 (12.06.2017): 4705–16. http://dx.doi.org/10.1002/slct.201700901.
Johannes, Christian, i Andrzej Majcherczyk. "Natural Mediators in the Oxidation of Polycyclic Aromatic Hydrocarbons by Laccase Mediator Systems". Applied and Environmental Microbiology 66, nr 2 (1.02.2000): 524–28. http://dx.doi.org/10.1128/aem.66.2.524-528.2000.
Silbernagl, S., K. Volker, H. J. Lang i W. H. Dantzler. "Taurine reabsorption by a carrier interacting with furosemide in short and long Henle's loops of rat nephrons". American Journal of Physiology-Renal Physiology 272, nr 2 (1.02.1997): F205—F213. http://dx.doi.org/10.1152/ajprenal.1997.272.2.f205.
Rozprawy doktorskie na temat "Anthracene sulfonic acid (ASA)":
Molapo, Kerileng Mildred. "Electro chemiluminescence and organic electronics of derivatised poly(aniline sulphonic acid) light-emitting diodes". University of the Western Cape, 2011. http://hdl.handle.net/11394/8437.
Electrochemiluminescence (EeL) is applied for industrial applications that have considerable potential, such as clinical diagnostic, analytical chemistry, and light-emitting devices, due to selectivity, sensitivity for detection and quantification of molecules through generation of fluorescence light when electric current is applied on the materials. In EeL the electrochemical reaction allows for precise control over the time and position of the light emitting reaction. The control over time allows one to synchronise the luminescence and the biochemical reaction under study and control over position not only improves sensitivity of the instrument by increasing the signal to noise ratio, but also allows multiple analytical reactions in the same sample to be analyzed using an electrode array. The EeL generation fluorescent materials are based on inorganic semiconductor materials for light-emitting devices. Further progress in this EeL field mainly depends on discovery of new advanced materials, interfacial films and nanoparticle coatings, advances in microfluidics leading to total increase in EeL properties. There has been extensive use of polymers for enhancement of EeL properties. Electrochemiluminescent conjugated polymers constitute a new class of fluorescent polymers that emit light when excited by the flow of an electric current. These new generation fluorescent materials may now challenge the domination by inorganic semiconductor materials for the commercial market of light-emitting devices such as lightemitting diodes and polymer laser devices (PLDs).