Aggregation behaviour of tetracaine hydrochloride with Gemini surfactants and the formation of silver nanoparticles using drug-Gemini surfactants mixture
暂无分享,去创建一个
[1] A. Divsalar,et al. Multiple spectroscopic studies of the interaction between a quaternary ammonium-based cationic Gemini surfactant (as a carrier) and human erythropoietin , 2018, Journal of biomolecular structure & dynamics.
[2] Samy M. Shaban,et al. Effect of some prepared surfactants on silver nanoparticles formation and surface solution behavior and their biological activity , 2018, Journal of Molecular Liquids.
[3] W. Qiao,et al. Enhanced intercellular release of anticancer drug by using nano-sized catanionic vesicles of doxorubicin hydrochloride and gemini surfactants , 2018 .
[4] Abdullah M. Asiri,et al. Aggregation of sodium salt of ibuprofen and sodium taurocholate mixture in different media: A tensiometry and fluorometry study , 2018, The Journal of Chemical Thermodynamics.
[5] Sugam Kumar,et al. Drug-Induced Micelle-to-Vesicle Transition of a Cationic Gemini Surfactant: Potential Applications in Drug Delivery. , 2018, Chemphyschem : a European journal of chemical physics and physical chemistry.
[6] Lingyun Zhou,et al. Soft Particles of Gemini Surfactant/Conjugated Polymer for Enhanced Anticancer Activity of Chemotherapeutics. , 2018, ACS applied materials & interfaces.
[7] Kabir-ud-din,et al. Interaction of a novel twin-tailed oxy-diester functionalized surfactant with lysozyme: Spectroscopic and computational perspective. , 2017, International journal of biological macromolecules.
[8] Hyun-Chul Kim,et al. Highly stable and reduction responsive micelles from a novel polymeric surfactant with a repeating disulfide-based gemini structure for efficient drug delivery , 2017 .
[9] R. Mahajan,et al. Probing molecular interactions of tetracaine with surface active ionic liquid and subsequent formation of vesicle in aqueous medium , 2017 .
[10] Abdullah M. Asiri,et al. Surface, micellar, and thermodynamic properties of antidepressant drug nortriptyline hydrochloride with TX-114 in aqueous/urea solutions , 2017 .
[11] F. Devínsky,et al. Silver Nanoparticles Stabilised by Cationic Gemini Surfactants with Variable Spacer Length , 2017, Molecules.
[12] W. Qiao,et al. Interaction and binding efficiency of cationic drug chlorpheniramine maleate – anionic amino acid gemini surfactants mixture as media for the synthesis of silver nanoparticles , 2017 .
[13] Abdullah M. Asiri,et al. Binary Mixtures of Sodium Salt of Ibuprofen and Selected Bile Salts: Interface, Micellar, Thermodynamic, and Spectroscopic Study , 2017 .
[14] Chun Zhang,et al. Gemini Surfactants Templated Mesoporous Silica Microparticles: from Solid to Hollow Mesoporous Spheres , 2017 .
[15] Malik Abdul Rub,et al. Effect of anionic surfactant and temperature on micellization behavior of promethazine hydrochloride drug in absence and presence of urea , 2017 .
[16] Samy M. Shaban,et al. Studying the silver nanoparticles influence on thermodynamic behavior and antimicrobial activities of novel amide Gemini cationic surfactants. , 2017, Materials science & engineering. C, Materials for biological applications.
[17] Abdullah M. Asiri,et al. Micellar and interfacial properties of amphiphilic drug–non-ionic surfactants mixed systems: Surface tension, fluorescence and UV–vis studies , 2017 .
[18] S. Das,et al. Effect of gemini surfactant (16-6-16) on the synthesis of silver nanoparticles: A facile approach for antibacterial application. , 2016, Enzyme and microbial technology.
[19] W. Qiao,et al. Vesicles from pH-regulated reversible gemini amino-acid surfactants as nanocapsules for delivery. , 2016, Colloids and surfaces. B, Biointerfaces.
[20] Xinrong Liu,et al. The 12-3-12 cationic gemini surfactant as a novel gastrointestinal bioadhesive material for improving the oral bioavailability of coenzyme Q10 naked nanocrystals , 2016, Drug development and industrial pharmacy.
[21] N. Negm,et al. Synthesis and evaluation of silver nanoparticles loaded with Gemini surfactants: Surface and antimicrobial activity , 2015 .
[22] A. Srivastava,et al. Interaction of tetracaine hydrochloride with sodium deoxycholate in aqueous micellar phase and at the surface , 2015 .
[23] N. Negm,et al. Synthesis, characterization and biological activity of colloidal silver nanoparticles stabilized by gemini anionic surfactants , 2015 .
[24] Jing Shi,et al. Co-delivery of thioredoxin 1 shRNA and doxorubicin by folate-targeted gemini surfactant-based cationic liposomes to sensitize hepatocellular carcinoma cells. , 2014, Journal of materials chemistry. B.
[25] A. Foroumadi,et al. Mixed micellar nanoparticles based on PCL-PEG-PPO-PEG-PCL pentablocks , 2014, Journal of Polymer Research.
[26] Sonu,et al. Aggregation properties and thermodynamics of micellization of gemini surfactants with diethyl ether spacer in water and water–organic solvent mixed media , 2014 .
[27] S. Noori,et al. Experimental and theoretical approach to cationic drug-anionic gemini surfactant systems in aqueous medium. , 2014, Colloids and surfaces. B, Biointerfaces.
[28] Zhenshan Hou,et al. Ionic liquid-Pluronic P123 mixed micelle stabilized water-soluble Ni nanoparticles for catalytic hydrogenation. , 2014, Journal of colloid and interface science.
[29] A. Garden,et al. Optimized colloidal chemistry for micelle-templated synthesis and assembly of silver nanocomposite materials , 2014 .
[30] O. Horovitz,et al. New procedure to synthesize silver nanoparticles and their interaction with local anesthetics , 2013, International journal of nanomedicine.
[31] Kabir-ud-din,et al. Influence of 1,4-dioxane on the aggregation of bis(tetradecyldimethylammonium)butane dibromide gemini surfactant , 2013 .
[32] O. Horovitz,et al. Selective effect of procaine, tetracaine and dibucaine on gold nanoparticles. , 2012, Journal of nanoscience and nanotechnology.
[33] A. Christy,et al. Synthesis and characterization of monodispersed silver nanoparticles , 2012 .
[34] A. Brioude,et al. Calix-arene silver nanoparticles interactions with surfactants are charge, size and critical micellar concentration dependent. , 2012, Chemical communications.
[35] Kwangmeyung Kim,et al. Self-assembled nanoparticles based on hyaluronic acid-ceramide (HA-CE) and Pluronic® for tumor-targeted delivery of docetaxel. , 2011, Biomaterials.
[36] S. Bhattacharya,et al. Role of spacer lengths of gemini surfactants in the synthesis of silver nanorods in micellar media. , 2011, Nanoscale.
[37] Tao Huang,et al. Synthesis and Characterization of Tunable Rainbow Colored Colloidal Silver Nanoparticles Using Single-Nanoparticle Plasmonic Microscopy and Spectroscopy. , 2010, Journal of materials chemistry.
[38] Kabir-ud-din,et al. Micellar Properties and Related Thermodynamic Parameters of the 14-6-14, 2Br− Gemini Surfactant in Water + Organic Solvent Mixed Media† , 2010 .
[39] Kabir-ud-din,et al. Conductometric studies of micellization of gemini surfactant pentamethylene-1,5-bis(tetradecyldimethylammonium bromide) in water and water-organic solvent mixed media. , 2010, Journal of colloid and interface science.
[40] D. Das,et al. Aggregation and adsorption properties of sodium dodecyl sulfate in water-acetamide mixtures. , 2008, Journal of colloid and interface science.
[41] M. Moyá,et al. Mixtures of monomeric and dimeric surfactants: hydrophobic chain length and spacer group length effects on non ideality. , 2008, The journal of physical chemistry. B.
[42] K. Ismail,et al. Micellization Behavior of Mixtures of Sodium Dioctylsulfosuccinate with Sodium Dodecylsulfate in Water , 2008 .
[43] S. Shanmugam,et al. Mixed micellar nanoparticle of amphotericin b and poly styrene-block-poly ethylene oxide reduces nephrotoxicity but retains antifungal activity , 2007, Archives of pharmacal research.
[44] S. P. Moulik,et al. On mixed binary surfactant systems comprising MEGA 10 and alkyltrimethylammonium bromides: a detailed physicochemical study with a critical analysis. , 2007, Journal of colloid and interface science.
[45] V. Tyagi,et al. Cationic Gemini Surfactants: A Review , 2006 .
[46] R. Palepu,et al. Self-Aggregation of a Cationic−Nonionic Surfactant Mixture in Aqueous Media: Tensiometric, Conductometric, Density, Light Scattering, Potentiometric, and Fluorometric Studies , 2004 .
[47] I. Rubinstein,et al. Sterically Stabilized Phospholipid Mixed Micelles: In Vitro Evaluation as a Novel Carrier for Water-Insoluble Drugs , 2003, Pharmaceutical Research.
[48] V. Torchilin,et al. Structure and design of polymeric surfactant-based drug delivery systems. , 2001, Journal of controlled release : official journal of the Controlled Release Society.
[49] E. Franses,et al. Adsorption and surface tension of ionic surfactants at the air–water interface: review and evaluation of equilibrium models , 2001 .
[50] R. Alargova,et al. Mixed Micellization of Dimeric (Gemini) Surfactants and Conventional Surfactants. , 2001, Journal of colloid and interface science.
[51] Lora C Robosky,et al. NMR Studies of Binary Surfactant Mixture Thermodynamics: Molecular Size Model for Asymmetric Activity Coefficients , 1999 .
[52] A. K. Rakshit,et al. Interfacial and Thermodynamic Properties of SDBS−C12E10 Mixed Micelles in Aqueous Media: Effect of Additives , 1998 .
[53] H. Kamaya,et al. Volume properties of decylammonium chloride and micelle-forming local anesthetic mixtures in the micelle , 1998 .
[54] Lévy,et al. Mixed Micellization of Dimeric (Gemini) Surfactants and Conventional Surfactants. I. Mixtures of an Anionic Dimeric Surfactant and of the Nonionic Surfactants C12E5 and C12E8 , 1998, Journal of colloid and interface science.
[55] M. J. Rosen,et al. Gemini surfactants , 1998 .
[56] M. J. Rosen. Molecular interactions and the quantitative prediction of synergism in mixtures of surfactants , 1998 .
[57] S. Kaneshina,et al. Incorporation of micelle-forming local anesthetics into surface-adsorbed films and micelles of decylammonium chloride , 1997 .
[58] S. P. Moulik,et al. Properties of Mixed Micelles of Binary Surfactant Combinations , 1996 .
[59] S. Kaneshina,et al. SURFACE ADSORPTION AND VOLUME BEHAVIOR OF LOCAL ANESTHETICS , 1994 .
[60] S. P. Moulik,et al. Interaction of bile salts with hexadecyltrimethylammonium bromide and sodium dodecyl sulfate , 1991 .
[61] R. Despotović. On mixed surfactant systems , 1991 .
[62] M. Fernández,et al. The local anaesthetic tetracaine as a quencher of perylene fluorescence in micelles. , 1990, Journal of photochemistry and photobiology. B, Biology.
[63] M. J. Rosen,et al. Standard free energies of adsorption of surfactants at the aqueous solution/air interface from surface tension data in the vicinity of the critical micelle concentration , 1981 .
[64] R. Zana. Ionization of cationic micelles: Effect of the detergent structure , 1980 .
[65] K. Mittal,et al. Solution Chemistry of Surfactants , 1979 .
[66] J. Watkins,et al. Adverse reactions to intravenous anaesthetic induction agents. , 1977, British medical journal.
[67] J. H. Clint. Micellization of mixed nonionic surface active agents , 1975 .