Your search keyword '"Dalton, Alan B."' showing total 7 results

1. Importance of capillary forces in the assembly of carbon nanotubes in a polymer colloid lattice.

Author

Jurewicz I, Keddie JL, and Dalton AB

Subjects

Colloids chemistry, Particle Size, Surface Properties, Nanotubes, Carbon chemistry, Polymers chemistry

Abstract

We highlight the significance of capillary pressure in the directed assembly of nanorods in ordered arrays of colloidal particles. Specifically, we discuss mechanisms for the assembly of carbon nanotubes at the interstitial sites between latex polymer particles during composite film formation. Our study points to general design rules to be considered to optimize the ordering of nanostructures within such polymer matrices. In particular, gaining an understanding of the role of capillary forces is critical. Using a combination of electron microscopy and atomic force microscopy, we show that the capillary forces acting on the latex particles during the drying process are sufficient to bend carbon nanotubes. The extent of bending depends on the flexural rigidity of the carbon nanotubes and whether or not they are present as bundled ensembles. We also show that in order to achieve long-range ordering of the nanotubes templated by the polymer matrix, it is necessary for the polymer to be sufficiently mobile to ensure that the nanotubes are frozen into the ordered network when the film is formed and the capillary forces are no longer dominant. In our system, the polymer is plasticized by the addition of surfactant, so that it is sufficiently mobile at room temperature. Interestingly, the carbon nanotubes effectively act as localized pressure sensors, and as such, the study agrees well with previous theoretical predictions calculating the magnitude of capillary forces during latex film formation.

Published

2012

2. Enhanced thermal actuation in thin polymer films through particle nano-squeezing by carbon nanotube belts.

Author

Worajittiphon P, Jurewicz I, King AA, Keddie JL, and Dalton AB

Subjects

Nanoparticles chemistry, Nanotechnology methods, Nanotubes, Carbon chemistry, Polymers chemistry, Temperature

Published

2010

3. Mechanochromic and Thermochromic Sensors Based on Graphene Infused Polymer Opals.

Author

Jurewicz, Izabela, King, Alice A. K., Shanker, Ravi, Large, Matthew J., Smith, Ronan J., Maspero, Ross, Ogilvie, Sean P., Scheerder, Jurgen, Han, Jun, Backes, Claudia, Razal, Joselito M., Florescu, Marian, Keddie, Joseph L., Coleman, Jonathan N., and Dalton, Alan B.

Subjects

GRAPHENE, OPALS, PHOTONIC crystals, STRAIN sensors, POLYMERS, COLLOIDAL crystals

Abstract

High quality opal‐like photonic crystals containing graphene are fabricated using evaporation‐driven self‐assembly of soft polymer colloids. A miniscule amount of pristine graphene within a colloidal crystal lattice results in the formation of colloidal crystals with a strong angle‐dependent structural color and a stop band that can be reversibly shifted across the visible spectrum. The crystals can be mechanically deformed or can reversibly change color as a function of their temperature, hence their sensitive mechanochromic and thermochromic response make them attractive candidates for a wide range of visual sensing applications. In particular, it is shown that the crystals are excellent candidates for visual strain sensors or integrated time‐temperature indicators which act over large temperature windows. Given the versatility of these crystals, this method represents a simple, inexpensive, and scalable approach to produce multifunctional graphene infused synthetic opals and opens up exciting applications for novel solution‐processable nanomaterial based photonics. [ABSTRACT FROM AUTHOR]

Published

2020

4. Polymer of Intrinsic Microporosity (PIM‐7) Coating Affects Triphasic Palladium Electrocatalysis.

Author

Mahajan, Ankita, Bhattacharya, Swapan K., Rochat, Sébastien, Burrows, Andrew D., Fletcher, Philip J., Rong, Yuanyang, Dalton, Alan B., McKeown, Neil B., and Marken, Frank

Subjects

MICROPOROSITY, OXIDATION-reduction reaction, HYDROGEN evolution reactions, PALLADIUM, CARBON electrodes, POLYMERS, ELECTROPLATING, ELECTROCATALYSIS

Abstract

A film of the polymer of intrinsic microporosity PIM‐7 is coated onto a glassy carbon electrode and the resulting effects on electron transfer reactions are studied for three different types of processes: (i) aqueous solution based, (ii) solid state surface immobilised, and (iii) electrocatalytic processes on electrodeposited palladium. The effects on reactivity for hydroquinone oxidation in aqueous phosphate buffer are shown to be linked to microporosity causing a slightly lower rate of mass transport without detrimental effects on electron transfer and reaction kinetics. Next, water‐insoluble microcrystalline anthraquinone is immobilised directly into the PIM‐7 film and shown to give a chemically reversible reduction process, which is enhanced in the presence of PIM‐7, when compared to the case of anthraquinone immobilised directly onto bare glassy carbon. Electrodeposition of a film of nano‐palladium is demonstrated to give catalytically active electrodes for the reduction/oxidation of protons/hydrogen, the reduction of oxygen, and for the oxidation of formic acid and methanol. With the PIM‐7 film applied onto palladium, a mechanical stabilisation effect occurs. In addition, both the hydrogen insertion and the hydrogen evolution reactions as well as formic acid oxidation are enhanced. Effects are discussed in terms of PIM‐7 beneficially affecting the interfacial reaction under triphasic conditions. The microporous polymer acts as an interfacial "gas management" layer. [ABSTRACT FROM AUTHOR]

Published

2019

5. Conjugated Polymer Nanoparticle–Graphene Oxide Charge‐Transfer Complexes.

Author

Istif, Emin, Hernández‐Ferrer, Javier, Urriolabeitia, Esteban P., Stergiou, Anastasios, Tagmatarchis, Nikos, Fratta, Giuseppe, Large, Matthew J., Dalton, Alan B., Benito, Ana M., and Maser, Wolfgang K.

Subjects

GRAPHENE oxide, NANOSTRUCTURED materials, ELECTROCHEMICAL analysis, POLYMERS, ORGANIC solvents

Abstract

Abstract: The game‐changing role of graphene oxide (GO) in tuning the excitonic behavior of conjugated polymer nanoparticles is described for the first time. This is demonstrated by using poly(3‐hexylthiophene) (P3HT) as a benchmark conjugated polymer and employing an in situ reprecipitation approach resulting in P3HT nanoparticles (P3HTNPs) with sizes of 50–100 nm in intimate contact with GO. During the self‐assembly process, GO changes the crystalline packing of P3HT chains in the forming P3HTNPs from H to H/J aggregates exhibiting exciton coupling constants as low as 2 meV, indicating favorable charge separation along the P3HT chains. Concomitantly, π–π interface interactions between the P3HTNPs and GO sheets are established resulting in the creation of P3HTNPs–GO charge‐transfer complexes whose energy bandgaps are lowered by up to 0.5 eV. Moreover, their optoelectronic properties, preestablished in the liquid phase, are retained when processed into thin films from the stable aqueous dispersions, thus eliminating the critical dependency on external processing parameters. These results can be transferred to other types of conjugated polymers. Combined with the possibility of employing water based “green” processing technologies, charge‐transfer complexes of conjugated polymer nanoparticles and GO open new pathways for the fabrication of improved optoelectronic thin film devices. [ABSTRACT FROM AUTHOR]

Published

2018

6. Mechanochromic Sensors: Mechanochromic and Thermochromic Sensors Based on Graphene Infused Polymer Opals (Adv. Funct. Mater. 31/2020).

Author

Jurewicz, Izabela, King, Alice A. K., Shanker, Ravi, Large, Matthew J., Smith, Ronan J., Maspero, Ross, Ogilvie, Sean P., Scheerder, Jurgen, Han, Jun, Backes, Claudia, Razal, Joselito M., Florescu, Marian, Keddie, Joseph L., Coleman, Jonathan N., and Dalton, Alan B.

Subjects

GRAPHENE, COLLOIDAL crystals, OPALS, DETECTORS, POLYMERS, POLYMER colloids

Published

2020

7. Improving the mechanical properties of single-walled carbon nanotube sheets by intercalation of polymeric adhesives.

Author

Coleman, Jonathan N., Blau, Werner J., Dalton, Alan B., Muñoz, Edgar, Collins, Steve, Kim, Bog G., Razal, Joselito, Selvidge, Miles, Vieiro, Guillermo, and Baughman, Ray H.

Subjects

POLYMERS, NANOTUBES

Abstract

Organic polymers, such as poly(vinyl alcohol), poly(vinyl pyrrolidone), and poly(styrene), were intercalated into single-walled carbon nanotube sheets by soaking the sheets in polymer solutions. Even for short soak times, significant polymer intercalation into existing free volume was observed. Tensile tests on intercalated sheets showed that the Young's modulus, strength, and toughness increased by factors of 3, 9, and 28, respectively, indicating that the intercalated polymer enhances load transmission between nanotubes. [ABSTRACT FROM AUTHOR]

Published

2003