http://www.cnr.it/ontology/cnr/individuo/prodotto/ID301123

Book of Abstract of Electrospinning for High Performance Sensing Workshop (Curatela)

Type

Curatela (Classe)
Prodotto della ricerca (Classe)

Label

Book of Abstract of Electrospinning for High Performance Sensing Workshop (Curatela) (literal)

Anno

2014-01-01T00:00:00+01:00 (literal)

Alternative label

Macagnano Antonella, Fabrizio De Cesare, Lucia Paciucci (2014)
Book of Abstract of Electrospinning for High Performance Sensing Workshop
(literal)

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Il libro deglia abstract è la collezione degli abstracts dei seminari presentati dagli speakers al Workshop Internazionale organizzato presso IIA-CNR Area della Ricerca di Montelibretti (RM) in data 29-30 Aprile 2014, supportata dalla Action Europea dal titolo MPNS COST Action MP1206: Electrospun nano-fibres for bio inspired composite materials and innovative industrial applications. (literal)

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Macagnano Antonella, Fabrizio De Cesare, Lucia Paciucci (literal)

Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#affiliazioni

IIA-CNR DIBAF- Univ. Tuscia (literal)

Titolo

Book of Abstract of Electrospinning for High Performance Sensing Workshop (literal)

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9788862240123 (literal)

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Libro (literal)

Abstract

Preface The first International Workshop on Electrospinning for High Performance Sensing (EHPS) has been organized by the Institute of Atmospheric Pollution Research of the CNR (CNR-IIA) and held in Rome on April 29-30, 2014 as a part of a European Concerted Research Action, designed as COST MP1206 and entitled \"Electrospun Nano-fibres for bio inspired composite materials and innovative industrial applications\". Electrospinning is a very flexible and not expensive technology, thus resulting particularly attractive for designing micro-nanostructured sensors. The technology allows an easy integration of long fibres (both organics and inorganics) with microcircuits in different configurations and on several substrates. Sensitivity, detection limits, response time and selectivity of each nanofibrous sensor can be enhanced by tuning the porosity of fibres and layers (through the orchestration of different parameters in electrospinning), as well as by performing post-treatment procedures. Some recent and encouraging results reported in literature, ranging from a very high sensitivity to extreme operating conditions, confirmed a multitude of supplies. Despite of these amazing and industrially attractive properties for sensors manufacturing, electrospinning technology is still not widespread among nanotechnologies for sensors. The workshop has been intended to be the first one of a series of forthcoming meetings devoted to share and spread novel ideas for innovative and more attractive sensors. Together with world-renowned scientists, several companies and young researchers from all over the world joined the workshop. After the opening, highlighting the general industrial potentials of electrospinning, the potentials and limitations of such a technology in the sensor market have been discussed by both scientists and enterprises. In other presentations, mathematical models have been proposed to control the electrospinning process in designing and manufacturing high performing materials for several applications, such as health and environmental monitoring, security, food quality, etc. Electroactive and optical properties of the fibers have also been described, focusing on single fibers, 3D fabrics of polymers, polymer blends, nanocomposites and metal-oxides, as well as on different types of structures (hollow-fibers, core-shell) and on different functionalization. Several strategies in technical customisation of the procedure have been proposed and described by scientists to obtain differently performing fibrous structures. Other issues of the workshop have focused on the state of the art of nanosensors, and the description of materials, methods and advanced technologies to design and construct a plethora of functionalized nanofibres with different features suitable for sensing. The main subjects presented in the workshop and concerning chemical and physical sensors and biosensors based on electrospinning, and their related sensor market prospects, will be collected in a book edited by Springer entitled \"Electrospinning for high performance Sensors\". (literal)
Preface Electrospinning, an electro-hydrodynamic process is a versatile and promising platform technology for the production of electrospun nanofibrous materials consisting of a great variety of polymers and polymer composites. This platform process can provide bio- or oil based polymer nanofibrous materials to be used for innovative biomedical devices or for many diverse other application fields like in food packaging. The COST Action covers scientific breakthroughs and innovations in the electrospinning process itself, nanofibrous materials and nanofibrous composite advancements and the post treatment processing of electrospun materials. Besides applications in biomedical and technical fields health, societal and environmental issues are considered as well. The main aim of this recently started COST Action MP1206 entitled \"Electrospun Nano-Fibres for Bio Inspired Composite Materials and Innovative Industrial Applications\" is to form a European multidisciplinary knowledge platform on electrospinning of nanofibres to facilitate their rapid development and applications. In particular, this platform will help to promote cooperation between researchers from different scientific disciplines, efficiently exchanging ideas and strategies in order to lead developments in science, technology and innovative applications of electrospun nanofibres and corresponding materials. One of the many promising application areas of electrospun nanofibres and materials is their use for innovative sensor concepts and sensor applications. (literal)

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