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020			_a9789048128730 _99789048128730
024	7		_a10.1007/9789048128730 _2doi
035			_avtls000365181
039		9	_a201509030710 _bVLOAD _c201405070408 _dVLOAD _y201402211246 _zstaff
040			_aMX-SnUAN _bspa _cMX-SnUAN _erda
050		4	_aQC610.9-611.8
100	1		_aBushby, Richard J. _eeditor. _9351387
245	1	0	_aLiquid Crystalline Semiconductors : _bMaterials, properties and applications / _cedited by Richard J. Bushby, Stephen M. Kelly, Mary O'Neill.
264		1	_aDordrecht : _bSpringer Netherlands : _bImprint: Springer, _c2013.
300			_aIx, 272 páginas 244 ilustraciones, 6 ilustraciones en color. _brecurso en línea.
336			_atexto _btxt _2rdacontent
337			_acomputadora _bc _2rdamedia
338			_arecurso en línea _bcr _2rdacarrier
347			_aarchivo de texto _bPDF _2rda
490	0		_aSpringer Series in Materials Science, _x0933-033X ; _v169
500			_aSpringer eBooks
505	0		_aPreface -- 1 Introduction -- 2 Charge Transport in Liquid Crystalline Semiconductors -- 3 Columnar Liquid Crystalline Semiconductors -- 4 Synthesis of Columnar Liquid Crystals -- 5 Charge Transport in Reactive Mesogens and Liquid Crystal Polymer Networks -- 6 Optical Properties of Liquid Crystals -- 7 Organic Light-Emitting diodes (OLEDs) and OLEDs with Polarised Emission -- 8 Liquid Crystals for Organic  Photovoltaics -- 9 Liquid Crystals for Organic  Field-Effect Transistors.
520			_aThis is an exciting stage in the development of organic electronics. It is no longer an area of purely academic interest as increasingly real applications are being developed, some of which are beginning to come on-stream. Areas that have already been commercially developed or which are under intensive development include organic light emitting diodes (for flat panel displays and solid state lighting), organic photovoltaic cells, organic thin film transistors (for smart tags and flat panel displays) and sensors. Within the family of organic electronic materials, liquid crystals are relative newcomers. The first electronically conducting liquid crystals were reported in 1988 but already a substantial literature has developed. The advantage of liquid crystalline semiconductors is that they have the easy processability of amorphous and polymeric semiconductors but they usually have higher charge carrier mobilities. Their mobilities do not reach the levels seen in crystalline organics but they circumvent all of the difficult issues of controlling crystal growth and morphology. Liquid crystals self-organise, they can be aligned by fields and surface forces and, because of their fluid nature, defects in liquid crystal structures readily self-heal. With these matters in mind this is an opportune moment to bring together a volume on the subject of ‘Liquid Crystalline Semiconductors’. The field is already too large to cover in a comprehensive manner so the aim has been to bring together contributions from leading researchers which cover the main areas of the chemistry (synthesis and structure/function relationships), physics (charge transport mechanisms and optical properties) and potential applications in photovoltaics, organic light emitting diodes (OLEDs) and organic field-effect transistors (OFETs). This book will provide a useful introduction to the field for those in both industry and academia and it is hoped that it will help to stimulate future developments.
590			_aPara consulta fuera de la UANL se requiere clave de acceso remoto.
700	1		_aKelly, Stephen M. _eeditor. _9351388
700	1		_aO'Neill, Mary. _eeditor. _9351389
710	2		_aSpringerLink (Servicio en línea) _9299170
776	0	8	_iEdición impresa: _z9789048128723
856	4	0	_uhttp://remoto.dgb.uanl.mx/login?url=http://dx.doi.org/10.1007/978-90-481-2873-0 _zConectar a Springer E-Books (Para consulta externa se requiere previa autentificación en Biblioteca Digital UANL)
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