Affichage des articles dont le libellé est Carbon-Nanotube. Afficher tous les articles
Affichage des articles dont le libellé est Carbon-Nanotube. Afficher tous les articles

@Cosys_Ifsttar Microsystems & Nanoengineering Summit 2018 Beijing, China

@Cosys_Ifsttar Microsystems & Nanoengineering Summit 2018 Beijing, China

Session 2: MEMS/NEMS

Date: July 10th Afternoon, 1:30-5:30pm 
Chair: Massayoshi Esashi, Co-Chair: Xinxia Cai
Members: Tianhong Cui, Yu Sun, Tarik Bourouina, Eric Yeatman,
                  Haixia(Alice) Zhang, Karl F. Böhringerna

Programme:
...


Université Paris-Est, IFSTTAR

Carbon Nanotubes Meet MEMS: Co-intergration Enables 9 Phyiscal and Chemical Sensors on a Single Chip’s IoT Node for Water Network Monitoring




SenseCity -VF - english subtitles
Présenté par Anne Ruas - Ifsttar-COSYS-LISIS
Ifsttar Vidéos
Projet "Proteus" dans le blog, cliquer ici


URL pour partager cette info, https://bit.ly/2tzzF0r

AdaPtive micROfluidic‐ and nano‐enabled smart systems for waTEr qUality Sensing (PROTEUS) – Flash study – The need for water monitoring in oceans

AdaPtive micROfluidic‐ and nano‐enabled smart systems for waTEr qUality Sensing (PROTEUS) – Flash study – The need for water monitoring in oceans

The H2020 European project PROTEUS is developing a cutting-edge water monitoring sensor based on carbon nanotube technology. We believe that this kind of highly sensitive, low cost and low energy sensor will accelerate even more the development of a global sea water monitoring network… 

Learn more

About the authors
Gael Zucchi1 , Bérengère Lebental1,2, Charlotte Dupont3

1 LPICM, CNRS, Ecole polytechnique, Université Paris-Saclay, Route de Saclay, 91128 Palaiseau Cedex, France 
2 IFSTTAR,Université Paris-Est, 14-20 boulevard Newton, 77447 Marne La Vallée Cedex 2, France 
3 EasyGlobalMarket, 1200 Route des Lucioles, 06901 Sophia-Antipolis Cedex, France

Anti-ageing properties of styrene–butadiene–styrene copolymer-modified asphalt combined with multi-walled carbon nanotubes - Road Materials and Pavement Design -

Anti-ageing properties of styrene–butadiene–styrene copolymer-modified asphalt combined with multi-walled carbon nanotubes - Road Materials and Pavement Design -
This paper presents the findings from a study conducted to evaluate the potential impact of Carbon Nanotubes (CNTs) on the anti-ageing properties of styrene–butadiene–styrene copolymer-modified asphalt (SBS PMA). Ageing Indexes (AIs) of conventional parameters, rheological parameters, and structural changes were employed to capture the changes in asphalt samples before and after ageing. For conventional parameters, AIs of viscosity at 60°C, penetration, and ductility were significantly decreased by the addition of CNTs. Rheological parameters were performed by Master curves and Han curves, including complex modulus (G*), elastic modulus (G′), viscous modulus (G″), and phase angle (δ). When the amount of CNTs below 0.5 wt.%, the AIs of G* in the low-frequency zone of mater curves for SBS PMA was smaller than the one without CNTs. On the other hand, when the amount of CNTs surpass 0.5 wt.%, the AIs of G* in high-frequency zone of mater curves for SBS PMA was large. CNTs provided unaged SBS PMA with lower slopes of log (G′) versus log (G″) plots and higher elastic modulus in the terminal region of the plot attributable to the deformation and relaxation of SBS and CNT particles. For structural changes, AI of carbonyl functions and butadiene functions for SBS PMA were larger than that of samples with CNTs; thus, SBS degradation was decreased by adding CNTs. Furthermore, the oxygen-uptake amount of blends combined with SBS and CNTs was lower than that of neat SBS modifiers, demonstrating its important effect on the anti-ageing properties of SBS-modified asphalt. © 2016 Informa UK Limited, trading as Taylor & Francis Group

Actualité > Des panneaux solaires ultra-efficaces grâce à des nanotubes de carbone

Actualité > Des panneaux solaires ultra-efficaces grâce à des nanotubes de carbone
Des chercheurs du Massachusetts Institute of Technology (MIT), aux États-Unis, ont annoncé avoir amélioré le rendement d’une cellule photovoltaïque des plus classiques. Comment ? Grâce à une association de matériaux high-tech composée de cristaux nanophotoniques et de nanotubes de carbone capable de convertir la chaleur solaire en rayonnement efficace pour la cellule photovoltaïque.
Le 31/05/2016 à 15:34 - Nathalie Mayer, Futura-Sciences

Evaluation of rheological behavior and performance to permanent deformation of nanomodified asphalt mixtures with carbon nanotubes - Canadian Journal of Civil Engineering

Evaluation of rheological behavior and performance to permanent deformation of nanomodified asphalt mixtures with carbon nanotubes - Canadian Journal of Civil Engineering

Abstract:

Rutting is one of the most important issues associated with asphalt pavements. This defect leads to the accelerated degradation of the pavement and considerably reduces the level of road safety. This paper reports on the results obtained in the optimization of nanocomposite asphalt containing carbon nanotubes (CNTs) with regard to the resistance to permanent deformation. Nanocomposite asphalts were prepared with the addition of different proportions of CNTs. Based on a study on the empirical and rheological properties of the nanocomposites developed, optimization of the CNT content incorporated into the conventional asphalt binder was carried out. Then two asphalt mixtures were investigated, a reference mixture and a nanomodified mixture with CNTs (optimal content). The rheological evaluations were carried out on four-point fatigue equipment and the resistance to permanent deformation was tested in a traffic simulator (wheel tracking test). The results demonstrate the efficient contribution of the nanocomposite to the resistance to permanent deformation. © 2016, National Research Council of Canada. All rights reserved.(35 refs)

Evaluation of rheological behavior and performance to permanent deformation of nanomodified asphalt mixtures with carbon nanotubes, João Victor Staub de Melo, Glicério Trichês,Canadian Journal of Civil Engineering, 2016, 43:472-479, 10.1139/cjce-2015-0546

Hierarchical Assemblies of Carbon Nanotubes for Ultraflexible Li-Ion Batteries - Ahmad - 2016 - Advanced Materials - Wiley Online Library

Hierarchical Assemblies of Carbon Nanotubes for Ultraflexible Li-Ion Batteries - Ahmad - 2016 - Advanced Materials - Wiley Online Library
The flexible batteries that are needed to power flexible circuits and displays remain challenging, despite considerable progress in the fabrication of such devices. Here, it is shown that flexible batteries can be fabricated using arrays of carbon nanotube microstructures, which decouple stress from the energy-storage material. It is found that this battery architecture imparts exceptional flexibility (radius ≈ 300 μm), high rate (20 A g−1), and excellent cycling stability.

Carbon nanotube semiconductors are well-suited for photovoltaics

Carbon nanotube semiconductors are well-suited for photovoltaics

(Nanowerk News) Researchers at the Energy Department's National Renewable Energy Laboratory (NREL) discovered single-walled carbon nanotube semiconductors could be favorable for photovoltaic systems because they can potentially convert sunlight to electricity or fuels without losing much energy.

Read more: Carbon nanotube semiconductors are well-suited for photovoltaics 

Nanotubes and nanocrystals combine to produce green fuels - Materials Today

Nanotubes and nanocrystals combine to produce green fuels - Materials Today

Chemists at the University of Texas at Arlington (UTA) have developed new high-performing materials that can use sunlight to split carbon dioxide and water into usable fuels like methanol and hydrogen gas. These ‘green fuels’ could be used to power cars and home appliances, or store energy in batteries.

Carbon nanotubes bring a new touch to robotics - Materials Today

Carbon nanotubes bring a new touch to robotics - Materials Today

A skin-like polymeric material is using carbon nanotubes (CNTs) to bring a sense of touch to robotic and prosthetic devices. Developed by researchers at Stanford University and Xerox Palo Alto Research Center, the flexible, polymeric skin or ‘digital tactile system’ (DiTact) incorporates CNT pressure sensors and flexible organic printed circuits to mimic human response [Tee et al., Science 350 (2015) 313].

Manipulating nanohoops leads to new class of organic semiconductor - Materials Today

Manipulating nanohoops leads to new class of organic semiconductor - Materials Today
When Ramesh Jasti began making tiny organic circular structures using carbon atoms, the idea was to create an improved version of carbon nanotubes for use in electrical and optical devices. He quickly realized, however, that his technique might have wider applications.

Institut de physique - CNRS - Des nanotubes autoassemblés qui changent de diamètre sur commande

Institut de physique - CNRS - Des nanotubes autoassemblés qui changent de diamètre sur commande
Des chercheurs ont réalisé des nanotubes autoassemblés, dont le diamètre est contrôlé par l’acidité du milieu dans lequel ils sont plongés pour passer de 10 nanomètres à 50 nanomètres ou inversement. Leur secret réside dans la brique de base qui constitue ces nanotubes : la triptoréline, un peptide qui change de forme selon le pH.

Field emission luminescence of nanodiamonds deposited on the aligned carbon nanotube array : Scientific Reports : Nature Publishing Group

Field emission luminescence of nanodiamonds deposited on the aligned carbon nanotube array : Scientific Reports : Nature Publishing Group

Detonation nanodiamonds (NDs) were deposited on the surface of aligned carbon nanotubes (CNTs) by immersing a CNT array in an aqueous suspension of NDs in dimethylsulfoxide (DMSO). The structure and electronic state of the obtained CNT–ND hybrid material were studied using optical and electron microscopy and Infrared, Raman, X-ray photoelectron and near-edge X-ray absorption fine structure spectroscopy. A non-covalent interaction between NDs and CNT and preservation of vertical orientation of CNTs in the hybrid were revealed. We showed that current-voltage characteristics of the CNT–ND cathode are changed depending on the applied field; below ~3 V/µm they are similar to those of the initial CNT array and at the higher field they are close to the ND behavior. Involvement of the NDs in field emission process resulted in blue luminescence of the hybrid surface at an electric field higher than 3.5 V/µm. Photoluminescence measurements showed that the NDs emit blue-green light, while blue luminescence prevails in the CNT–ND hybrid. The quenching of green luminescence was attributed to a partial removal of oxygen-containing groups from the ND surface as the result of the hybrid synthesis.

Carbon nanotubes show nerve in repair - Materials Today

Carbon nanotubes show nerve in repair - Materials Today

Carbon nanotubes could spark new life into damaged nerves, say researchers, thanks to their unique combination of length, strength, and electrical conductivity.

US researchers unveil first carbon-nanotube computer - physicsworld.com

US researchers unveil first carbon-nanotube computer - physicsworld.com

A computer made from tens of thousands of carbon nanotubes has been unveiled by researchers at Stanford University in the US. Described as the first complete computer made from these tiny rolled-up tubes of carbon, the system runs an operating system and can store and execute simple computer programs as well as output the results. The Stanford team says that its work could be an important step towards commercial carbon-nanotube-based computers, which could be faster and more energy-efficient than traditional silicon-based devices.

TV5MONDE : actualites : Soie d'araignée et nanotubes de carbone pour l'électronique du futur?

TV5MONDE : actualites : Soie d'araignée et nanotubes de carbone pour l'électronique du futur?

De la soie d'araignée, de minuscules tubes de carbone, un peu d'eau et beaucoup de doigté: il n'en faudrait pas plus pour préparer l'électronique du futur, à la fois nanométrique et écologique, suggère une étude publiée mardi.
La soie d'araignée est en effet non seulement très résistante, mais aussi disponible à bas prix, biodégradable et compatible avec des usages médicaux car elle ne provoque pas de réaction de rejet. En outre, soumise à un certain taux d'humidité, la fibre de soie augmente en longueur et en diamètre. Et elle peut même subir une "super contraction", augmentant son diamètre tout en réduisant sa longueur et en s'assouplissant lorsqu'elle est abondamment mouillée.