Yeates, Stephen - The University of Manchester

个人简介

Professor Steve Yeates has over 20 years industrial experience working for ICI, Zeneca and Avecia Ltd in the area of specialty polymer chemistry. During that time he held a number of senior technical positions developing and implementing research strategy. Over the last 7 years in industry he developed a particular interest in organic semiconductors and inkjet printing for both industrial and SOHO applications. In November 2004 he was appointed to the full time academic position as Professor of Polymer Chemistry, and co-Director within the Organic Materials Innovation Centre (OMIC) at the University of Manchester, the UK?s second largest chemistry department. His current areas of research are supported by EPSRC, DTI, Home Office, EU, and active industrial collaboration.

研究领域

My research concerns the synthesis, characterization of polymers and crosses the boundaries of physical and organic chemistry. Particular interests and active programme include: Synthesis and solution processing of novel oligo and polyacene organic semiconductors. Fundamental studies on associating polymers under high shear process; e.g inkjet printing. Assembly of topologically and structurally complex 2.5 and 3D functional materials by inkjet micro-deposition. Bottom up assembly and stabilisation of organic, metallic and hybrid nano-particulates. Synthesis and characterisation of functional aqueous polymers for coatings applications. Functional polymer supports for selective metal recovery. Synthesis and solution characterisation of polyethylene oxide block copolymers.

近期论文

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Veronica Sanchez-Romaguera, Sebastian Wünscher, Badredin M. Turki, Robert Abbel, Silvia Barbosa, Daniel J. Tate, Dumtoochukwu Oyeka, John C. Batchelor, Edward A. Parker, Ulrich S. Schubertb and Stephen G. Yeates. Inkjet printed paper based frequency selective surfaces and skin mounted RFID tags: the interrelation between silver nanoparticle ink, paper substrate and low temperature sintering technique. Journal of Materials Chemistry C. 2015; eScholarID:246746 | DOI:10.1039/C4TC02693D Eifion R. Patchett, Aled Williams, Ziqian Ding, Gamal Abbas, Hazel E. Assender, John J. Morrison, Stephen G. Yeates, D. Martin Taylor. A high-yield vacuum-evaporation-based R2R-compatible fabrication route for organic electronic circuit. Organic Electronics. 2014; 15(7): 1493-1502. eScholarID:246731 Gamal A Abbas, Ziqian Ding, Hazel E Assender, John J Morrison, Stephen G Yeates, Eifion R Patchett, D Martin Taylor. A high-yielding evaporation-based process for organic transistors based on the semiconductor DNTT. Organic Electronics. 2014; 15(9): 1998-2006. eScholarID:243322 | DOI:DOI: 10.1016/j.orgel.2014.05.029 Laila Abu-Sen, John J. Morrison, Andrew B. Horn and Stephen G. Yeates. Concentration- and Solvent-Dependent Photochemical Instability of 6,13-Bis(triisopropysilylethynyl)pentacene. Advanced Optical Materials. 2014; 2(7): 636-640. eScholarID:246796 Ziqian Ding, Gamal Abbas, Hazel Elaine Assender, John J Morrison, Stephen G Yeates, Eifion R Patchett, D Martin Taylor. Effect of oxygen, moisture and illumination on the stability and reliability of dinaphtho [2, 3-b: 2â€², 3â€²-f] thieno [3, 2-b] thiophene (DNTT) OTFTs during operation and storage. 2014; 16(7): 15224-15231. eScholarID:246741 | DOI:10.1021/am503560d Withers, Freddie; Yang, Huafeng; Britnell, Liam; Rooney, Aidan; Lewis, Edward; Felten, Alexandre; Woods, Colin; Sanchez Romaguera, Veronica; Georgiou, Thanasis; Eckmann, Axel; Kim, Yong; Yeates, Stephen; Haigh, Sarah; Geim, Andre; Novoselov, Kostya; Casiraghi, Cinzia. Heterostructures produced from nanosheet-based inks. Nano Letters. 2014; 14(7): 3987-3992. eScholarID:246742 Joseph SR Wheeler, Stuart W Reynolds, Steven Lancaster, Veronica Sanchez Romanguera, Stephen G Yeates. Polymer Degradation during Continuous Inkjet. Polymer Degradation and Stability. 2014; 105: 116-121. eScholarID:246744 MN Karim, M Rigout, SG Yeates, C Carr. Surface chemical analysis of the effect of curing conditions on the properties of thermally-cured pigment printed poly (lactic acid) fabrics. Dyes and Pigments. 2014; 103: 168-174. eScholarID:219232 | DOI:10.1016/j.dyepig.2013.12.010