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AN ENVIRONMENTALLY-BENIGN ELECTROCHEMICAL METHOD FOR FORMATION OF A CHITOSAN-BASED COATING ON STAINLESS STEEL AS A SUBSTRATE FOR DEPOSITION OF NOBLE METAL NANOPARTICLES

机译：一种环境友好的电化学方法，在以不锈钢为基底的壳聚糖上形成壳聚糖的涂层，以沉积贵金属纳米颗粒

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We report on a new method for formation of catalytic nanocomposites surfaces and nanoparticles, with many potential benefits in energy and biomedical applications. This work demonstrates an environmentally-benign process using electrochemistry and post deposition UV irradiation to create a durable, robust layer on a stainless steel (304) electrode surface which serves as a substrate for subsequent deposition of silver nanoparticles. Electron microscopy, vibrational and electron spectroscopies are used to identify the structure and chemistry of the initial chitosan layers, indicating formation of nitro groups through oxidization of a fraction of the amine groups of chitosan which may play a role in enhancing adhesion to the passive film on the stainless steel cathode. By using this surface to synthesize noble metal nanoparticles through a patent pending process which eliminates the use of harsh reducing agents, we propose development of a surface with important functionality for catalytic and biomedical applications.

机译：我们报告了一种形成催化纳米复合材料表面和纳米颗粒的新方法，在能源和生物医学应用中具有许多潜在的好处。这项工作证明了使用电化学和沉积后紫外线照射在不锈钢（304）电极表面上形成耐用，坚固的层的环境友好过程，该层用作随后沉积银纳米颗粒的基底。电子显微镜，振动和电子光谱法用于鉴定最初的壳聚糖层的结构和化学性质，表明通过壳聚糖的一部分胺基团的氧化可形成硝基，这可能在增强与钝化膜之间的粘附力方面发挥作用不锈钢阴极。通过使用此表面通过一项正在申请专利的方法来合成贵金属纳米颗粒，该方法无需使用刺激性的还原剂，我们建议开发一种具有重要功能的表面，用于催化和生物医学应用。

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《Processing and properties of advanced ceramics and composites V》|2012年|229-238|共10页
会议地点 Pittsburgh PA(US)
作者
Gary P. Halada; Prashant Jha; Michael Cuiffo; James Ging; Kweku Acquah;
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Department of Materials Science and Engineering Stony Brook University, Stony Brook, New York 11794-2275;

Department of Materials Science and Engineering Stony Brook University, Stony Brook, New York 11794-2275;

Department of Materials Science and Engineering Stony Brook University, Stony Brook, New York 11794-2275;

Department of Materials Science and Engineering Stony Brook University, Stony Brook, New York 11794-2275;

Department of Chemistry Worcester State University, Worcester, Massachusetts 01602;

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1. Electrochemical and time-of-flight secondary ion mass spectrometry analysis of ultra-thin metal oxide (Al_2O_3 and Ta_2O_5) coatings deposited by atomic layer deposition on stainless steel [J] . Belen Diaz, Jolanta Swiatowska, Vincent Maurice, Electrochimica Acta . 2011,第28期

机译：通过原子层沉积在不锈钢上沉积的超薄金属氧化物（Al_2O_3和Ta_2O_5）涂层的电化学和飞行时间二次离子质谱分析
2. Substrate heating method for coating metal surfaces with high-silica zeolites: ZSM-5 coatings on stainless steel plates [J] . Tatlier M, Demir M, Tokay B, Microporous and mesoporous materials: The offical journal of the International Zeolite Association . 2007,第3期

机译：用高硅沸石涂层在金属表面上进行基材加热的方法：在不锈钢板上进行ZSM-5涂层
3. Effect of deposition method and the surfactant on high capacitance of electrochemically deposited MnO_2 on stainless steel substrate [J] . Suhasini Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry . 2013,第Null期

机译：沉积方法和表面活性剂对不锈钢基底上电化学沉积MnO_2高电容的影响
4. AN ENVIRONMENTALLY-BENIGN ELECTROCHEMICAL METHOD FOR FORMATION OF A CHITOSAN-BASED COATING ON STAINLESS STEEL AS A SUBSTRATE FOR DEPOSITION OF NOBLE METAL NANOPARTICLES [C] . Gary P. Halada, Prashant Jha, Michael Cuiffo, International symposia on processing and properties of advanced ceramics and composites . 2013

机译：一种环境良性电化学方法，用于在不锈钢上形成壳聚糖基涂层作为沉积贵金属纳米粒子的基材
5. Sol-gel-derived zirconia thin film coatings for titanium - 6-aluminum - 4-vanadium and 316L stainless steel implant applications: A study of zirconia microstructure and the response of the coating-substrate system to applied deformation. [D] . Kirk, Peter Billson. 1997

机译：用于钛-6-铝-4-钒和316L不锈钢植入物应用的溶胶凝胶衍生的氧化锆薄膜涂料：氧化锆的微观结构和涂层-基材体系对施加变形的响应的研究。
6. Electrophoretic Deposition of Chitosan/h-BN and Chitosan/h-BN/TiO2 Composite Coatings on Stainless Steel (316L) Substrates [O] . Namir S. Raddaha, Luis Cordero-Arias, Sandra Cabanas-Polo, 2014

机译：不锈钢（316L）基质上壳聚糖/ h-BN和壳聚糖/ h-BN / TiO2复合涂层的电泳沉积
7. Studies on Coating of .GAMMA.-Al2O3 to Stainless Steel Substrate by an Electrophoretic Deposition Method [O] . Satoshi Kishida, Dong-Ying Ju 2008

机译：电泳沉积法研究。 - Al2O3涂层。 - Al2O3涂层电泳沉积法

AN ENVIRONMENTALLY-BENIGN ELECTROCHEMICAL METHOD FOR FORMATION OF A CHITOSAN-BASED COATING ON STAINLESS STEEL AS A SUBSTRATE FOR DEPOSITION OF NOBLE METAL NANOPARTICLES

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