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Section 89

EurekaMag Full Text Articles Chapter 88,021



References:

Gostuykhina, O.L.; Andreenko, T.I. 2020: Superoxide Dismutase and Catalase Activities in Tissues of the Black Sea Bivalve Mollusks Cerastoderma glaucum (Bruguière, 1789), Anadara kagoshimensis (Tokunaga, 1906) and Mytilus galloprovincialis Lam. as Related to Adaptation to Their Habitats. Journal of Evolutionary Biochemistry and Physiology 56(2): 113-124
Abrashev, R.; Engibarov, S.; Eneva, R.; Abrashev, I.; Angelova, M. 2009: Superoxide Dismutase and Catalase Activities in Vibrio Cholerae Non-O1Strains. Biotechnology-Biotechnological Equipment 23(Suppl 1): 473-476
Bayarmaa, J.; Purev, D. 2021: Superoxide Dismutase and Catalase Activities, Proline and Malondialdehyde Contents in Extracts of the Aerial Parts of two Species of Pulsatilla Native to Mongolia. Mongolian Journal Of Biological Sciences 19(2): 33-38
Yano, K.; Nishie, H. 1978: Superoxide Dismutase in Facultatively Anaerobic Bacteria: Enzyme Levels in Relation to Growth Conditions. The Journal of General and Applied Microbiology 24(6): 333-339
Iwase, K.; Tsujimura, T.; Hanai, T.; Jimbo, S.; Miura, K. 1997: Superoxide Dismutase in the Colo-rectal Cancer. The Japanese Journal of Gastroenterological Surgery 30(7): 1747-1751
Cristiana, F.; Elena, A.; Nina, Z. 2014: Superoxide Dismutase: Therapeutic Targets in SOD Related Pathology. Health 06(10): 975-988
AlNashef, I.M.; Leonard, M.L.; Matthews, M.A.; Weidner, J.W. 2002: Superoxide Electrochemistry in an Ionic Liquid. Industrial-Engineering Chemistry Research 41(18): 4475-4478
Kobayashi, S.; Ando, W. 1978: Superoxide Ion Chemistry. Reaction of Superoxide Ion with 2,4,6-Trisubstituted Pyrylium Tetrafluoroborates. Chemistry Letters 7(10): 1159-1162
Gajaganti, S.; Singh, S. 2017: Superoxide Ion Prompted one Pot Multicomponent Synthesis of 1,4-dihydropyridine derivatives. Materials Today: Proceedings 4(9): 10653-10657
Hayyan, M.; Alakrach, A.M.; Hayyan, A.; Hashim, M.A.; Hizaddin, H.F. 2017: Superoxide Ion as Oxidative Desulfurizing Agent for Aromatic Sulfur Compounds in Ionic Liquid Media. ACS Sustainable Chemistry-Engineering 5(2): 1854-1863
Yang, X.; Meng, Q.; Gao, X.; Lei, T.; Wu, C.; Chen, B.; Tung, C.; Wu, L. 2017: Superoxide Radical Anion‐Mediated Aerobic Oxidative Synthesis of 2‐Substituted Quinazolines under Visible Light. Asian Journal of Organic Chemistry 6(4): 449-452
Kafi, A.K. M.; Azmi, N. S.; Yusoff, M. M.; Crossley, M. J. 2017: Superoxide Radical Biosensor Based on a 3D Enzyme/Carbon Nanotube Conductive Networks. Journal of Nanoscience and Nanotechnology 17(8): 5896-5899
Coulter, E.D.; Emerson, J.P.; Kurtz, D.M.; Cabelli, D.E. 2000: Superoxide Reactivity of Rubredoxin Oxidoreductase (Desulfoferrodoxin) from Desulfovibrio vulgaris:  a Pulse Radiolysis Study. Journal of the American Chemical Society 122(46): 11555-11556
Formisano, J.; Troll, W.; Sugimura, T. 1983: Superoxide Response Induced by Indole Alkaloid Tumor Promoters. Annals of the New York Academy of Sciences 407(1): 429-431
Khanom, F.; Kayahara, H.; Hirota, M.; Tadasa, K. 2003: Superoxide Scavenging and Tyrosinase Inhibitory Active Compound in Ginger (Zingiber officinale Roscoe). Pakistan Journal of Biological Sciences 6(24): 1996-2000
Baum, R.M. 1984: Superoxide Theory of Oxygen Toxicity Is Center of Heated Debate. Chemical-Engineering News Archive 62(15): 20-26
Halliwell, B.; Rycker, J.d. 1978: Superoxide and Peroxidase-Catalysed Reactions. Oxidation of Dihydroxyfumarate, Nadh and Dithiothreitol by Horseradish Peroxidase. Photochemistry and Photobiology 28(4-5): 757-762
Zhao, Y.; Teng, B.; Wen, X.; Zhao, Y.; Chen, Q.; Zhao, L.; Luo, M. 2012: Superoxide and Peroxide Species on Ce O2(111), and their Oxidation Roles. The Journal of Physical Chemistry C 116(30): 15986-15991
E. Iglesias, D.; S. Bombicino, S.; Boveris, A.; B. Valdez, L. 2016: Superoxide and hydrogen peroxide productions by NO-inhibited complex IIi. BIOCELL 40(1): 27-30
Varma, S.D. 1981: Superoxide and lens of the eye: a new theory of cataractogenesis. International Journal of Quantum Chemistry 20(2): 479-484
Stein, J.; Fackler Jr., J.P.; McClune, G.J.; Fee, J.A.; Chan, L.T. 1979: Superoxide and manganese(III). Reactions of manganese-EDTA and manganese-Cy DTA complexes with molecular oxygen. X-ray structure of potassium manganese-EDTA.2 water. Inorganic Chemistry 18(12): 3511-3519
Inagaki, N. 1993: Superoxide anion (O2-) production by neutrophils in myelodysplastic syndrome (MDS). Okayama Igakkai Zasshi (Journal of Okayama Medical Association) 105(11-12): 919-932
Takahashi, K.; Akaike, T.; Sato, K.; Mori, K.; Maeda, H. 1993: Superoxide anion generation by pacific oyster (Crassostrea gigas) hemocytes: Identification by electron spin resonance spin trapping and chemiluminescence analysis. Comparative Biochemistry and Physiology Part B: Comparative Biochemistry 105(1): 32-41
Baptista, G.; Dupuy, A.; Cristol, J.; Jeandel, C.; Greslou, F. 2012: Superoxide anion production by NADPH oxidase and low-grade chronic inflammation are the main determinants of gait speed in older adults. European Geriatric Medicine 3: S59-S60
Frimer, A.A.; Gilinsky-Sharon, P.; Aljadeff, G.; Marks, V.; Rosental, Z. 1989: Superoxide anion radical (02.bul.-) mediated base-catalyzed autoxidation of .alpha.-keto enols. The Journal of Organic Chemistry 54(20): 4866-4872
Frimer, A.A.; Gilinsky-Sharon, P.; Aljadeff, G.; Gottlieb, H.E.; Hameiri-Buch, J.; Marks, V.; Philosof, R.; Rosental, Z. 1989: Superoxide anion radical (O2.bul.-)-mediated base-catalyzed autoxidation of enones. The Journal of Organic Chemistry 54(20): 4853-4866
Tumbas, V.; Čanadanović-Brunet, J.; Gille, L.; Đilas, S.; Ćetković, G. 2010: Superoxide anion radical scavenging activity of bilberry (Vaccinium myrtillus L.). Journal of Berry Research 1(1): 13-23
Liu, J.; Wang, Y.; Shen, J.; Liu, H.; Li, J.; Wang, A.; Hui, A.; Munir, H.A. 2020: Superoxide anion: Critical source of high performance antibacterial activity in Co-Doped Zn O QDs. Ceramics International 46(10): 15822-15830
Johnson, R.A.; Nidy, E.G. 1975: Superoxide chemistry. Convenient synthesis of dialkyl peroxides. The Journal of Organic Chemistry 40(11): 1680-1681
Johnson, R.A.; Nidy, E.G.; Merritt, M.V. 1978: Superoxide chemistry. Reactions of superoxide with alkyl halides and alkyl sulfonate esters. Journal of the American Chemical Society 100(25): 7960-7966
Johnson, R.A. 1976: Superoxide chemistry. a new, convenient synthesis of diacyl peroxides. Tetrahedron Letters 17(5): 331-332
González-Olmedo, J.L.; Garza-García, Y.; Mbogholi, A.; Rodríguez-Escriba, R.C.; Aragón, C.E.; Rodríguez, R.; Moreno, A. 2018: Superoxide dismutase activity and jasmonic acid during in vitro-ex vitro transition of pineapple (Ananas comosus (L.) Merr.) micropropagated plantlets. African Journal of Biotechnology 17(50): 1397-1402
Ghosh, S.; Chatterjee, G.C. 1979: Superoxide dismutase activity in Vibrio el tor in relation to oxygen toxicity and bactericidal action of nitrofurantoin. The Journal of General and Applied Microbiology 25(6): 367-374
Raza, A.; Varshney, S.K.; Khan, H.M.; Malik, M.A.; Mehdi, A.A.; Shukla, I. 2015: Superoxide dismutase activity in patients of cerebral malaria. Asian Pacific Journal of Tropical Disease 5: S51-S53
Kubota, M.; Ohnishi, T.; Okada, A. 1984: Superoxide dismutase activity of peripheral blood lymphocytes in inhabitants of a mountain village. Japanese Journal of Health and Human Ecology 50(4): 190-196
Casanova, J.; Alzuet, G.; Ferrer, S.; Latorre, J.; Antonio Ramı́rez, J.; Borrás, J. 2000: Superoxide dismutase activity of ternary copper complexes of sulfathiazole and imidazole derivatives. Synthesis and properties of [Cu L2(R-Him)2] [HL=4-amino-N-(thiazol-2-yl)benzenesulfonamide, R-Him=4-methylimidazole, 4,4-dimethylimidazoline or 1,2-dimethylimidazole]. Crystal structure of [Cu L2(4,4-dimethylimidazoline)2]. Inorganica Chimica Acta 304(2): 170-177
Zhang, X.; Tang, J.; Wang, L.; Yao, D.; Yu, Q.; Huang, F.; Bian, H. 2017: Superoxide dismutase activity studies of Mn(III)/Co(III)/Fe(III) complexes with Schiff base ligands. Polyhedron 133: 433-440
Bahareh, K.; Mohammad, M.; Seyed, R.T.A. 2012: Superoxide dismutase and -amylase changes of Damask rose (Rosa damascena Mill.) tissues seasonally. African Journal of Agricultural Research 7(42): 5671-5679
Manwell, C. 1977: Superoxide dismutase and NADH diaphorase in haemerythrocytes of sipunculans. Comparative Biochemistry and Physiology Part B: Comparative Biochemistry 58(4): 331-338
Bartkowiak, A.; Bartkowiak, J. 1981: Superoxide dismutase and catalase activities in normal and cancerous tissues. Comparative Biochemistry and Physiology Part B: Comparative Biochemistry 70(4): 819-820
Ji, D.; Xu, Y.; Xiao, H.; Chen, C.; Xu, K.; Xie, C. 2016: Superoxide dismutase genes in Pyropia haitanensis: molecular cloning, characterization and m RNA expression. Acta Oceanologica Sinica 35(6): 101-111
&Na;, 1995: Superoxide dismutase has wide clinical potential. Drugs-Therapy Perspectives 6(5): 8-9
Kurniasih, A.; Julia, M.; Setyati, A. 2015: Superoxide dismutase levels and peak expiratory flow in asthmatic children. Paediatrica Indonesiana 55(5): 309-314
Kurniasih, A.; Julia, M.; Setyati, A. 2015: Superoxide dismutase levels and peak expiratory flow in asthmatic children. Paediatrica Indonesiana 55(6): 309-314
Ren, X.; Wang, M.; He, X.; Li, Z.; Zhang, J.; Zhang, W.; Chen, X.; Ren, H.; Meng, X. 2018: Superoxide dismutase mimetic ability of Mn-doped Zn S QDs. Chinese Chemical Letters 29(12): 1865-1868
Pradedova, E.V.; Isheeva, O.D.; Salyaev, R.K. 2009: Superoxide dismutase of plant cell vacuoles. Biochemistry (Moscow) Supplement Series A: Membrane and Cell Biology 3(1): 24-32
Jain, S.K. 2006: Superoxide dismutase overexpression and cellular oxidative damage in diabetes. Free Radical Biology and Medicine 41(8): 1187-1190
Chang, J.H.; Baur, C.; Ateba Mba, J.; Arčon, D.; Mali, G.; Alwast, D.; Behm, R.J.; Fichtner, M.; Vegge, T.; Garcia Lastra, J.M. 2020: Superoxide formation in Li2VO2F cathode material – a combined computational and experimental investigation of anionic redox activity. Journal of Materials Chemistry A 8(32): 16551-16559
Alonso-Amigo, M.G.; Schlick, S. 1989: Superoxide formation in Nafion by electron transfer from titanium(3+): the effect of aluminum(3+) as cocation. The Journal of Physical Chemistry 93(21): 7526-7528
Sakurai, H.; Ishizu, K.; Okada, K. 1984: Superoxide generation by an iron- tetraphenylporphyrin- thiolate- oxygen system and its significance in relation to the coordination site of cytochrome P-450. Inorganica Chimica Acta 91(1): L9-L11
Sakurai, H.; Shibuya, M. 1986: Superoxide generation in metalloporphyrin-phosphine-hydroxide-oxygen systems. Inorganica Chimica Acta 124(2): L9-L10
Harbour, J.R.; Hair, M.L. 1977: Superoxide generation in the photolysis of aqueous cadmium sulfide dispersions. Detection by spin trapping. The Journal of Physical Chemistry 81(18): 1791-1793
Fukuishi, N.; Sakaguti, M.; Fukuyama, Y.; Akagi, M. 1996: Superoxide generation system as a target for evaluation of antiallergic drugs. Folia Pharmacologica Japonica 108(Supplement): 161-166
Scully Jr., F.E.; Davis, R.C. 1978: Superoxide in organic synthesis: a new mild method for the oxidation of amines to carbonyls via N-chloramines. The Journal of Organic Chemistry 43(7): 1467-1468
Corey, E.; Nicolaou, K.; Shibasaki, M.; Machida, Y.; Shiner, C.S. 1975: Superoxide ion as a synthetically useful oxygen nucleophile. Tetrahedron Letters 16(37): 3183-3186
Kazusaka, A.; Watanabe, T.; Miyahara, K.; Tanaka, k.; Tanabe, K. 1977: Superoxide ion formation process on reduced Mo O3Ti O2. Chemical Physics Letters 50(3): 491-493
Lee-Ruff, E.; Timms, N. 1980: Superoxide mediated autoxidation of hydrocarbons. Canadian Journal of Chemistry 58(20): 2138-2141
Fridovich, I. 1972: Superoxide radical and superoxide dismutase. Accounts of Chemical Research 5(10): 321-326
Rosenthal, I.; Frimer, A. 1976: Superoxide radical anion-oxidative cleavage of chalcones. Tetrahedron Letters 17(32): 2805-2808
Plonka, A.; Mayer, J.; Metodiewa, D.; Gebicki, J.L.; Zgirski, A.; Grabska, M. 1986: Superoxide radical dismutation by copper proteins. Journal of Radioanalytical and Nuclear Chemistry Articles 101(2): 221-225
Stanbury, D.M.; Mulac, W.A.; Sullivan, J.C.; Taube, H. 1980: Superoxide reactions with (isonicotinamide)pentaammineruthenium(II) and -(III). Inorganic Chemistry 19(12): 3735-3740
Suematsu, M.; Kumamoto, Y.; Sano, T.; Wakabayashi, Y.; Ishimura, Y. 1996: Superoxide, NO and CO in liver microcirculation: Physiology and pathophysiology. Journal of Hepato-Biliary-Pancreatic Surgery 3(2): 154-160
Frimer, A.A.; Gilinsky-Sharon, P.; Hameiri, J.; Aljadeheff, G. 1982: Superoxide, tert-butoxide, and hydroxide-mediated autoxidation of 3-oxo-.DELTA.4 steroids in aprotic media. The Journal of Organic Chemistry 47(14): 2818-2819
Frimer, A.A.; Strul, G.; Gottlieb, H.E. 1995: Superoxide-Mediated Base-Catalyzed Autoxidation of Tetraphenylcyclopentadiene. The Journal of Organic Chemistry 60(14): 4521-4524
Kuzmin, S.M.; Chulovskaya, S.A.; Parfenyuk, V.I. 2018: Superoxide-assisted electrochemical deposition of Mn-aminophenyl porphyrins: Process characteristics and properties of the films. Electrochimica Acta 292: 256-267
Flitter, W.; Rowley, D.; Halliwell, B. 1983: Superoxide-dependent formation of hydroxyl radicals in the presence of iron salts. FEBS Letters 158(2): 310-312
Oliveira, H.; Saviani, E.; Salgado, I. 2008: Superoxide-dependent nitric oxide degradation by mitochondria isolated from rat liver. Comparative Biochemistry and Physiology Part A: Molecular-Integrative Physiology 150(3): S109-S110
Nanni Jr., E.J.; Sawyer, D.T. 1980: Superoxide-ion oxidation of hydrophenazines, reduced flavins, hydroxylamine, and related substrates via hydrogen-atom transfer. Journal of the American Chemical Society 102(25): 7591-7593
Dureja, P.; Casida, J.E.; Ruzo, L.O. 1982: Superoxide-mediated dehydrohalogenation reactions of the pyrethroid permethrin and other chlorinated pesticides. Tetrahedron Letters 23(48): 5003-5004
Hazan-Hallevy, I.; Levy, T.; Levy, R.; Paran, E. 2004: Superoxides Produced by Angiotensin Ii-Stimulated Phagocytes Mediate the Adhesion of Phagocytes to Endothelial Cell. Journal of Hypertension 22(Suppl 2): S193-S194
R, S.; T, N.; L, M.; N, N. 2013: Superoxidised Solution in the Management of Lower Limb Ulcers: our Experience. Journal of Evolution of Medical and Dental Sciences 2(44): 8483-8489
Valentine, J.S.; Tatsuno, Y.; Nappa, M. 1977: Superoxotetraphenylporphinatozinc(1-). Journal of the American Chemical Society 99(10): 3522-3523
Husnain, S.M.; Kim, H.J.; Um, W.; Chang, Y.; Chang, Y. 2017: Superparamagnetic Adsorbent Based on Phosphonate Grafted Mesoporous Carbon for Uranium Removal. Industrial-Engineering Chemistry Research 56(35): 9821-9830
Masrour, R.; Bahmad, L.; Hlil, E.K.; Hamedoun, M.; Benyoussef, A. 2014: Superparamagnetic Behavior in La0.7Ca0.3Mn O3 Perovskite: Monte Carlo Simulations. Journal of Superconductivity and Novel Magnetism 28(1): 165-168
Oshio, H.; Hoshino, N.; Ito, T. 2000: Superparamagnetic Behavior in an Alkoxo-Bridged Iron(II) Cube. Journal of the American Chemical Society 122(50): 12602-12603
Shaw, R.R.; Heasley, J.H. 1967: Superparamagnetic Behavior of Mn Fe2O4 and alpha-Fe2O3 Precipitated from Silicate Melts. Journal of the American Ceramic Society 50(6): 297-302
Jae-Chul Lee; Kab-Jin Kim; Chang-Won Lee; Young Jin Cho; Sunae Seo; Chun-Yeol You; Shin, K.; Sug-Bong Choe, 2009: Superparamagnetic Behavior of Pt/Co Fe/Pt Nanowires with Decreasing Wire Width. IEEE Transactions on Magnetics 45(10): 3543-3545
Msomi, J.Z.; Masuku, S.J.; Nhlapo, T.A.; Moyo, T.; Strydom, A.M.; Britz, D.; Jili, T.P. 2019: Superparamagnetic Behavior of Zn and Al Substituted Cobalt Nanoferrites. Journal of Superconductivity and Novel Magnetism 32(9): 2793-2797
Rajagukguk, J.; Simamora, P.; Saragih, C.S.; Abdullah, H.; Gultom, N.S.; Imaduddin, A. 2020: Superparamagnetic Behaviour and Surface Analysis of Fe3O4/PPY/CNT Nanocomposites. Journal of Nanomaterials 2020: 1-6
Condomitti, U.; Zuin, A.; Silveira, A.T.; Toma, S.H.; Araki, K.; Toma, H.E. 2011: Superparamagnetic Carbon Electrodes: a Versatile Approach for Performing Magnetic Coupled Electrochemical Analysis of Mercury Ions. Electroanalysis 23(11): 2569-2573
MacLachlan, M.J.; Ginzburg, M.; Coombs, N.; Raju, N.P.; Greedan, J.E.; Ozin, G.A.; Manners, I. 2000: Superparamagnetic Ceramic Nanocomposites:  Synthesis and Pyrolysis of Ring-Opened Poly(ferrocenylsilanes) inside Periodic Mesoporous Silica. Journal of the American Chemical Society 122(16): 3878-3891
González-Solís, J.L.; Torres-González, L.A.; Villafán-Bernal, J.R. 2019: Superparamagnetic Clustering of Diabetes Patients Raman Spectra. Journal of Spectroscopy 2019: 1-8
Jeong, U.; Teng, X.; Wang, Y.; Yang, H.; Xia, Y. 2007: Superparamagnetic Colloids: Controlled Synthesis and Niche Applications. Advanced Materials 19(1): 33-60
Tartaj, P. 2009: Superparamagnetic Composites: Magnetism with no Memory. European Journal of Inorganic Chemistry 3: 333-343
Atta, A.; Akl, M. A.; Youssef, A. M.; Ibraheim, M. A. 2013: Superparamagnetic Core-Shell Polymeric Nanocomposites for Efficient Removal of Methylene Blue from Aqueous Solutions. Adsorption Science-Technology 31(5): 397-419
Li, J.; Gao, H.; Tan, L.; Luan, Y.; Yang, M. 2016: Superparamagnetic Core–Shell Metal–Organic Framework Fe 3 O 4 /Cu 3 (btc) 2 Microspheres and their Catalytic Activity in the Aerobic Oxidation of Alcohols and Olefins. European Journal of Inorganic Chemistry 30: 4906-4912
Bewley, R.; Cywinski, R. 1998: Superparamagnetic Cu Co studied by μSR. Journal of Magnetism and Magnetic Materials 177-181: 923-924
Ibrahim, E.M.M.; Hampel, S.; Wolter, A.U.B.; Kath, M.; El-Gendy, A.A.; Klingeler, R.; Täschner, C.; Khavrus, V.O.; Gemming, T.; Leonhardt, A.; Büchner, B. 2012: Superparamagnetic Fe Co and Fe Ni Nanocomposites Dispersed in Submicrometer-Sized C Spheres. The Journal of Physical Chemistry C 116(42): 22509-22517
Hohl, G.; Hihara, T.; Sakurai, M.; Konno, T.J.; Sumiyama, K.; Hensel, F.; Suzuki, K. 1995: Superparamagnetic Fe clusters in Ag matrix produced by sputter‐gas aggregation. Applied Physics Letters 66(3): 385-387
Li, J.; Li, Y.; Han, M.; Weng, X.; Li, Y.; Lu, Z.; Xu, Q.; Li, H.; Wang, W. 2020: Superparamagnetic Fe3O4 Nanoclusters Embedded within Porous Ti O2 Shells for Photoelectrochemical Sensing. ACS Applied Nano Materials 3(9): 9151-9157
Yuan, H.; Xu, Y.; Jia, H.; Zhou, S. 2016: Superparamagnetic Fe3O4/MWCNTs heterostructures for high frequency microwave absorption. RSC Advances 6(71): 67218-67225
Lan, F.; Wu, Y.; Hu, H.; Xie, L.; Gu, Z. 2013: Superparamagnetic Fe3O4/PMMA composite nanospheres as a nanoplatform for multimodal protein separation. RSC Adv. 3(5): 1557-1563
Luciński, T.; Stobiecki, F.; Dubowik, J.; Czajka, R. 1997: Superparamagnetic Grains as Source of Giant Magnetoresistance Effect in Discontinuous Co/Ag Multilayers. Acta Physica Polonica A 91(2): 269-272
Choi, H.; Kim, H.J. 2020: Superparamagnetic Hyperfine Relaxation in Zn0.75Ni0.25Fe2O4. Journal of the Korean Physical Society 76(11): 976-979
Chapman, M. C.; Lee, A. Y.; Hayward, J. H.; Joe, B. N.; Price, E. R. 2020: Superparamagnetic Iron Oxide Sentinel Node Tracer Injection: Effects on Breast MRi Quality. Journal of Breast Imaging 2(6): 577-582
Janati, F.; Heravi, M.M.; Mirshokraie, A. 2013: Superparamagnetic Iron Oxide as an Efficient Catalyst for the One-Pot, Solvent-Free Synthesis of 5,5-Disubstituted Hexahydropyrimidines and their Spiro Analogues. Journal of Chemistry 2013: 1-5
Marie, H.; Lemaire, L.; Franconi, F.; Lajnef, S.; Frapart, Y.; Nicolas, V.; Frébourg, G.; Trichet, M.; Ménager, C.; Lesieur, S. 2015: Superparamagnetic Liposomes for MRi Monitoring and External Magnetic Field-Induced Selective Targeting of Malignant Brain Tumors. Advanced Functional Materials 25(8): 1258-1269
Wirtz, G.P.; Fine, M.E. 1967: Superparamagnetic Magnesioferrite Precipitates from Dilute Solutions of Iron in Mg O. Journal of Applied Physics 38(9): 3729-3737
Guo, T.; Jiang, W.; Ruan, Y.; Dong, L.; Liu, H.; Li, H.; Zhu, W.; Li, H. 2018: Superparamagnetic Mo-containing core-shell microspheres for catalytic oxidative desulfurization of fuel. Colloids and Surfaces A: Physicochemical and Engineering Aspects 537: 243-249
de Mello Ferreira, I.L.; de Araújo, L.S.; da Silva, M.R. 2016: Superparamagnetic Nanocomposite Based on Alginate/Maghemite/Montmorillonite Clay: Evaluation of Thermal, Morphological and Magnetic Properties. Science of Advanced Materials 8(5): 956-965
Savva, I.; Marinica, O.; Taculescu, A.; Vekas, L.; Krasia-Christoforou, T. 2012: Superparamagnetic Nanocomposite PEO/PLLA-Based Fibrous Membranes: Synthesis, Characterization and Evaluation in Drug Release Applications. Procedia Engineering 44: 1050-1051
Thakuria, P.; Joy, P.A. 2009: Superparamagnetic Nanocomposite of Magnetite and Activated Carbon for Removal of Dyes from Waste Water. Nanoscience and Nanotechnology Letters 1(3): 171-175
Biswas, S.; Belfield, K.D.; Das, R.K.; Ghosh, S.; Hebard, A.F. 2012: Superparamagnetic Nanocomposites Templated with Pyrazole-Containing Diblock Copolymers. Polymers 4(2): 1211-1225
Gupta, R.; Bajpai, A. 2012: Superparamagnetic Nanocomposites of Poly(vinyl alcohol-graft-acrylonitrile) as Carrier for Magnetically Assisted Release of Ciprofloxacin. Macromolecular Symposia 315(1): 73-83
Choo, E.S.G.; Peng, E.; Rajendran, R.; Chandrasekharan, P.; Yang, C.; Ding, J.; Chuang, K.; Xue, J. 2012: Superparamagnetic Nanostructures for Off-Resonance Magnetic Resonance Spectroscopic Imaging. Advanced Functional Materials 23(4): 496-505
Schad, R.; Alouach, H.; Harrell, J.W.; Shamsuzzoha, M.; Wang, D. 2003: Superparamagnetic Ni Fe Co layers as free layers in magnetic tunnel junctions. Journal of Applied Physics 93(10): 8561-8563
Pal, N.; Im, S.; Cho, E.; Kim, H.; Park, J. 2020: Superparamagnetic Ni O-doped mesoporous silica flower-like microspheres with high nickel content. Journal of Industrial and Engineering Chemistry 81: 99-107
Zhou, D.; Sun, Y.; Zheng, Y.; Ran, H.; Li, P.; Wang, Z.; Wang, Z. 2015: Superparamagnetic PLGA–iron oxide microspheres as contrast agents for dual-imaging and the enhancement of the effects of high-intensity focused ultrasound ablation on liver tissue. RSC Advances 5(45): 35693-35703
Rondinone, A.J.; Samia, A.C.S.; Zhang, Z.J. 1999: Superparamagnetic Relaxation and Magnetic Anisotropy Energy Distribution in Co Fe2O4 Spinel Ferrite Nanocrystallites. The Journal of Physical Chemistry B 103(33): 6876-6880
Tsai, C.; Cheng, C.; Tsai, M.; Chern, G. 2014: Superparamagnetic States and Perpendicular Magnetic Anisotropy in Ultrathin Mg O/Co Fe B/Ta Structures. IEEE Transactions on Magnetics 50(1): 1-4
Yan, X.; Liu, G.; Liu, F.; Tang, B.Z.; Peng, H.; Pakhomov, A.B.; Wong, C.Y. 2001: Superparamagnetic Triblock Copolymer/Fe2O3 Hybrid Nanofibers. Angewandte Chemie 113(19): 3705-3708
Peters, C.; Ergeneman, O.; García, P.D.W.; Müller, M.; Pané, S.; Nelson, B.J.; Hierold, C. 2014: Superparamagnetic Twist-Type Actuators with Shape-Independent Magnetic Properties and Surface Functionalization for Advanced Biomedical Applications. Advanced Functional Materials 24(33): 5269-5276
Iacob, M.; Sirbu, D.; Tugui, C.; Stiubianu, G.; Sacarescu, L.; Cozan, V.; Zeleňáková, A.; Čižmár, E.; Feher, A.; Cazacu, M. 2015: Superparamagnetic amorphous iron oxide nanowires self-assembled into ordered layered structures. RSC Advances 5(77): 62563-62570
Liu, D.; Zhao, D.; Shi, F.; Zheng, K.; Qin, W. 2012: Superparamagnetic and upconversion luminescent properties of Fe3O4/Na YF4:Yb, Er hetero-submicro-rods. Materials Letters 85: 1-3
Mietta, J.L.; Jorge, G.; Perez, O.E.; Maeder, T.; Negri, R.M. 2013: Superparamagnetic anisotropic elastomer connectors exhibiting reversible magneto-piezoresistivity. Sensors and Actuators A: Physical 192: 34-41
Mohapatra, J.; Mishra, D.; Singh, S. 2012: Superparamagnetic behavior in chemically synthesized nanocrystalline Zn0.99Ni0.01O powders. Materials Letters 75: 91-94
Pekarek, T.; Crooker, B.; Nolte, D.; Deak, J.; McElfresh, M.; Chang, J.; Harmon, E.; Melloch, M.; Woodall, J. 1997: Superparamagnetic behavior of Fe3Ga as precipitates in Ga as. Journal of Magnetism and Magnetic Materials 169(3): 261-270
Cimberle, M.; Masini, R.; Canepa, F.; Costa, G.; Artini, C.; Vecchione, A.; Polichetti, M.; Gombos, M.; Adesso, M. 2007: Superparamagnetic behavior of ferromagnetic nanoclusters in Ru Sr2Gd Cu2O8 and Ru Sr2Gd1.6Ce0.4Cu2O10 samples observed by AC and DC magnetic measurements. Journal of Magnetism and Magnetic Materials 316(2): E529-E531
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