Your search keyword '"Robin MP"' showing total 15 results

1. A Hill on Fire: Using Matches, 3D Printing, and Code as a Forest Fire Analog

Author

Morillo, Robin MP and Manz, Niklas

Published

2017

2. Screening the Surface Structure-Dependent Action of a Benzotriazole Derivative on Copper Electrochemistry in a Triple-Phase Nanoscale Environment.

Author

Daviddi E, Shkirskiy V, Kirkman PM, Robin MP, Bentley CL, and Unwin PR

Abstract

Copper (Cu) corrosion is a compelling problem in the automotive sector and in oil refinery and transport, where it is mainly caused by the action of acidic aqueous droplets dispersed in an oil phase. Corrosion inhibitors, such as benzotriazole (BTAH) and its derivatives, are widely used to limit such corrosion processes. The efficacy of corrosion inhibitors is expected to be dependent on the surface crystallography of metals exposed to the corrosion environment. Yet, studies of the effect of additives at the local level of the surface crystallographic structure of polycrystalline metals are challenging, particularly lacking for the triple-phase corrosion problem (metal/aqueous/oil). To address this issue, scanning electrochemical cell microscopy (SECCM), is used in an acidic nanodroplet meniscus|oil layer|polycrystalline Cu configuration to explore the grain-dependent influence of an oil soluble BTAH derivative (BTA-R) on Cu electrochemistry within the confines of a local aqueous nanoprobe. Electrochemical maps, collected in the voltammetric mode at an array of >1000 points across the Cu surface, reveal both cathodic (mainly the oxygen reduction reaction) and anodic (Cu electrooxidation) processes, of relevance to corrosion, as a function of the local crystallographic structure, deduced with co-located electron backscatter diffraction (EBSD). BTA-R is active on the whole spectrum of crystallographic orientations analyzed, but there is a complex grain-dependent action, distinct for oxygen reduction and Cu oxidation. The methodology pinpoints the surface structural motifs that facilitate corrosion-related processes and where BTA-R works most efficiently. Combined SECCM-EBSD provides a detailed screen of a spectrum of surface sites, and the results should inform future modeling studies, ultimately contributing to a better inhibitor design., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published

2022

3. Self-Sealing Complex Oxide Resonators.

Author

Lee M, Robin MP, Guis RH, Filippozzi U, Shin DH, van Thiel TC, Paardekooper SP, Renshof JR, van der Zant HSJ, Caviglia AD, Verbiest GJ, and Steeneken PG

Abstract

Although 2D materials hold great potential for next-generation pressure sensors, recent studies revealed that gases permeate along the membrane-surface interface, necessitating additional sealing procedures. In this work, we demonstrate the use of free-standing complex oxides as self-sealing membranes that allow the reference cavity beneath to be sealed by a simple anneal. To test the hermeticity, we study the gas permeation time constants in nanomechanical resonators made from SrRuO 3 and SrTiO 3 membranes suspended over SiO 2 /Si cavities which show an improvement up to 4 orders of magnitude in the permeation time constant after annealing the devices. Similar devices fabricated on Si 3 N 4 /Si do not show such improvements, suggesting that the adhesion increase over SiO 2 is mediated by oxygen bonds that are formed at the SiO 2 /complex oxide interface during the self-sealing anneal. Picosecond ultrasonics measurements confirm the improvement in the adhesion by 70% after annealing.

Published

2022

4. Nanoscale electrochemistry in a copper/aqueous/oil three-phase system: surface structure-activity-corrosion potential relationships.

Author

Daviddi E, Shkirskiy V, Kirkman PM, Robin MP, Bentley CL, and Unwin PR

Abstract

Practically important metal electrodes are usually polycrystalline, comprising surface grains of many different crystallographic orientations, as well as grain boundaries. In this study, scanning electrochemical cell microscopy (SECCM) is applied in tandem with co-located electron backscattered diffraction (EBSD) to give a holistic view of the relationship between the surface structure and the electrochemical activity and corrosion susceptibility of polycrystalline Cu. An unusual aqueous nanodroplet/oil (dodecane)/metal three-phase configuration is employed, which opens up new prospects for fundamental studies of multiphase electrochemical systems, and mimics the environment of corrosion in certain industrial and automotive applications. In this configuration, the nanodroplet formed at the end of the SECCM probe (nanopipette) is surrounded by dodecane, which acts as a reservoir for oil-soluble species ( e.g. , O 2 ) and can give rise to enhanced flux(es) across the immiscible liquid-liquid interface, as shown by finite element method (FEM) simulations. This unique three-phase configuration is used to fingerprint nanoscale corrosion in a nanodroplet cell, and to analyse the interrelationship between the Cu oxidation, Cu 2+ deposition and oxygen reduction reaction (ORR) processes, together with nanoscale open circuit (corrosion) potential, in a grain-by-grain manner. Complex patterns of surface reactivity highlight the important role of grains of high-index orientation and microscopic surface defects ( e.g. , microscratches) in modulating the corrosion-properties of polycrystalline Cu. This work provides a roadmap for in-depth surface structure-function studies in (electro)materials science and highlights how small variations in surface structure ( e.g. , crystallographic orientation) can give rise to large differences in nanoscale reactivity., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2020

5. Fluorescent polymeric nanovehicles for neural stem cell modulation.

Author

Papadimitriou SA, Robin MP, Ceric D, O'Reilly RK, Marino S, and Resmini M

Subjects

Animals, Cells, Cultured, Gels, Mice, Micelles, Molecular Structure, Neural Stem Cells cytology, Polymers, Drug Carriers chemistry, Nanoparticles chemistry, Neural Stem Cells drug effects

Abstract

Nanomaterials are emerging as strong candidates for applications in drug delivery and offer an alternative platform to modulate the differentiation and activity of neural stem cells. Herein we report the synthesis and characterization of two different classes of polymeric nanoparticles: N-isopropylacrylamide-based thermoresponsive nanogels RM1 and P(TEGA)-b-P( d,l LA) 2 nano-micelles RM2. We covalently linked the nanoparticles with fluorescent tags and demonstrate their ability to be internalized and tracked in neural stem cells from the postnatal subventricular zone, without affecting their proliferation, multipotency and differentiation characteristics up to 150 μg ml -1 . The difference in chemical structure of RM1 and RM2 does not appear to impact toxicity however it influences the loading capacity. Nanogels RM1 loaded with retinoic acid improve solubility of the drug which is released at 37 °C, resulting in an increase in the number of neurons, comparable to what can be obtained with a solution of the free drug solubilised with a small percentage of DMSO.

Published

2016

6. Fluorescent Block Copolymer Micelles That Can Self-Report on Their Assembly and Small Molecule Encapsulation.

Author

Robin MP, Osborne SA, Pikramenou Z, Raymond JE, and O'Reilly RK

Abstract

Block copolymer micelles have been prepared with a dithiomaleimide (DTM) fluorophore located in either the core or shell. Poly(triethylene glycol acrylate)- b -poly( tert -butyl acrylate) (P(TEGA)- b -P( t BA)) was synthesized by RAFT polymerization, with a DTM-functional acrylate monomer copolymerized into either the core forming P( t BA) block or the shell forming P(TEGA) block. Self-assembly by direct dissolution afforded spherical micelles with R h of ca . 35 nm. Core-labeled micelles (CLMs) displayed bright emission (Φ f = 17%) due to good protection of the fluorophore, whereas shell-labeled micelles (SLMs) had lower efficiency emission due to collisional quenching in the solvated corona. The transition from micelles to polymer unimers upon dilution could be detected by measuring the emission intensity of the solutions. For the core-labeled micelles, the fluorescence lifetime was also responsive to the supramolecular state, the lifetime being significantly longer for the micelles (τ Av,I = 19 ns) than for the polymer unimers (τ Av,I = 9 ns). The core-labeled micelles could also self-report on the presence of a fluorescent hydrophobic guest molecule (Nile Red) as a result of Förster resonance energy transfer (FRET) between the DTM fluorophore and the guest. The sensitivity of the DTM fluorophore to its environment therefore provides a simple handle to obtain detailed structural information for the labeled polymer micelles. A case will also be made for the application superiority of core-labeled micelles over shell-labeled micelles for the DTM fluorophore.

Published

2016

7. Effect of Micellization on the Thermoresponsive Behavior of Polymeric Assemblies.

Author

Blackman LD, Wright DB, Robin MP, Gibson MI, and O'Reilly RK

Abstract

The chain density of polymer micelles, dictated by their aggregation number ( N agg ), is an often overlooked parameter that governs the macroscopic behavior of responsive assemblies. Using a combination of variable-temperature light scattering, turbidimetry, and microcalorimetry experiments, the cloud point and thermal collapse of micellar poly( N -isopropylacrylamide) (pNIPAM) corona chains at lower temperatures than the cloud point were found to be largely independent of the micelle's N agg . By controlling the core composition, the degree of hysteresis associated with the thermal transition was found to increase as a function of core hydrophobicity. We performed this study on well-characterized micelles with tunable N agg values, composed of a thermoresponsive corona (pNIPAM) and a nonresponsive core block poly( n -butyl acrylate- co - N , N -dimethylacrylamide) (p( n BA- co -DMA)), which were synthesized using reversible addition-fragmentation chain transfer (RAFT) polymerization. This allowed for a distinction to be made between thermoresponsive behavior at both the molecular and macroscopic level. The study of the subtle differences between these behaviors was made possible using a combination of complementary techniques. These results highlight the critical need for consideration of the effect that self-assembly plays on the responsive behavior of polymer chains when compared with free unimers in solution.

Published

2015

8. Aminomaleimide fluorophores: a simple functional group with bright, solvent dependent emission.

Author

Mabire AB, Robin MP, Quan WD, Willcock H, Stavros VG, and O'Reilly RK

Subjects

Energy Transfer, Protons, Spectrometry, Fluorescence, Fluorescent Dyes chemistry, Maleimides chemistry, Quantum Theory, Solvents chemistry

Abstract

Amino-substituted maleimides form a new class of highly emissive compounds, with large Stokes shifts (>100 nm) and high quantum yields (up to ∼60%). Emission is responsive to the maleimide's environment with both a red-shift, and quenching, observed in protic polar solvents. Aminomaleimides are easily functionalised, providing a versatile fluorescent probe.

Published

2015

9. Dual effect of thiol addition on fluorescent polymeric micelles: ON-to-OFF emissive switch and morphology transition.

Author

Mabire AB, Robin MP, Willcock H, Pitto-Barry A, Kirby N, and O'Reilly RK

Abstract

The morphology transition from micelles to vesicles of a solution-state self-assembled block copolymer, containing a fluorescent dye at the core-shell interface, has been induced by an addition-elimination reaction using a thiol, and has been shown to be coupled to a simultaneous ON-to-OFF switch in particle fluorescence.

Published

2014

10. The analysis of solution self-assembled polymeric nanomaterials.

Author

Patterson JP, Robin MP, Chassenieux C, Colombani O, and O'Reilly RK

Subjects

Light, Microscopy, Atomic Force, Nanostructures chemistry, Neutron Diffraction, Scattering, Radiation, Scattering, Small Angle, X-Ray Diffraction, Nanostructures analysis, Polymers chemistry

Abstract

There has been much interest in the construction of soft nanomaterials in solution due to a desire to emulate the exquisite structure and function of Nature's equivalents (e.g. enzymes, viruses, proteins and DNA). Nature's soft nanomaterials are capable of selectivity, precision and efficiency in areas such as information storage and replication, transportation and delivery, and synthesis and catalysis. To this end, the use of small molecules, amphiphiles, colloids, and polymers have been investigated for the development of advanced materials in myriad fields of biomedicine and synthetic chemistry. Two major challenges are faced in this area of research: the reproducible, scalable and precise synthesis of such constructs and the reliable, accurate and in-depth analysis of these materials. This tutorial review will focus on this second aspect and provide a guide for the characterisation and analysis of soft nanomaterials in solution using scattering and microscopic techniques.

Published

2014

11. New functional handle for use as a self-reporting contrast and delivery agent in nanomedicine.

Author

Robin MP, Mabire AB, Damborsky JC, Thom ES, Winzer-Serhan UH, Raymond JE, and O'Reilly RK

Subjects

Molecular Structure, Particle Size, Polymers chemistry, Surface Properties, Maleimides chemistry, Nanomedicine, Polymers chemical synthesis

Abstract

The synthesis and photophysical characterization of a chromophore-bridged block copolymer system is presented. This system is based on a dithiomaleimide (DTM) functional group as a highly emissive functionality which can readily be incorporated into polymeric scaffolds. A key advantage of this new reporter group is its versatile chemistry, ease of further functionalization, and notably small size, which allows for ready incorporation without affecting or disrupting the self-assembly process critical to the formation of core-shell polymeric contrast and drug delivery agents. We demonstrate the potential of this functionality with a diblock system which has been shown to be appropriate for micellization and, when in the micellar state, does not self-quench. The block copolymer is shown to be significantly more emissive than the lone dye, with a concentration-independent emission and anisotropy profile from 1.5 mM to 0.15 μM. An emission lifetime and anisotropy decay comparison of the block copolymer to its micelle displays that time-domain fluorescence lifetime imaging (FLIM) is able to rapidly resolve differences in the supramolecular state of this block-dye-block polymer system. Furthermore, the ability to resolve these differences in the supramolecular state means that the DTM micelles are capable of self-reporting when disassembly occurs, simply by monitoring with FLIM. We demonstrate the great potential for in vitro applications that this system provides by using FLIM to observe micelle disassembly in different vascular components of rat hippocampal tissue. In total this system represents a new class of in-chain emitter which is appropriate for application in quantitative imaging and the tracking of particle degradation/disassembly events in biological environments.

Published

2013

12. Conjugation-induced fluorescent labeling of proteins and polymers using dithiomaleimides.

Author

Robin MP, Wilson P, Mabire AB, Kiviaho JK, Raymond JE, Haddleton DM, and O'Reilly RK

Subjects

Chromatography, High Pressure Liquid, Polyethylene Glycols chemistry, Solubility, Spectrometry, Fluorescence, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Spectrophotometry, Ultraviolet, Fluorescent Dyes chemistry, Maleimides chemistry, Polymers chemistry, Proteins chemistry

Abstract

Dithiomaleimides (DTMs) with alkyl substituents are shown to be a novel class of highly emissive fluorophores. Variable solubility and further functionalization can easily be tailored through the choice of N and S substituents. Inclusion of a DTM unit into a ROP/RAFT initiator or insertion into the disulfide bond of salmon calcitonin (sCT) demonstrates the utility for fluorescent labeling of polymers and proteins. Simultaneous PEGylation and fluorescent labeling of sCT is also demonstrated, using the DTM unit as both a linker and a fluorophore. It is anticipated that DTMs will offer an attractive alternative to commonly used bulky, planar fluorophores.

Published

2013

13. Hollow block copolymer nanoparticles through a spontaneous one-step structural reorganization.

Author

Petzetakis N, Robin MP, Patterson JP, Kelley EG, Cotanda P, Bomans PH, Sommerdijk NA, Dove AP, Epps TH 3rd, and O'Reilly RK

Subjects

Hydrophobic and Hydrophilic Interactions, Surface Properties, Acrylic Resins chemistry, Nanoparticles chemistry, Nanotechnology methods, Polyesters chemistry

Abstract

The spontaneous one-step synthesis of hollow nanocages and nanotubes from spherical and cylindrical micelles based on poly(acrylic acid)-b-polylactide (P(AA)-b-P(LA)) block copolymers (BCPs) has been achieved. This structural reorganization, which occurs simply upon drying of the samples, was elucidated by transmission electron microscopy (TEM) and atomic force microscopy (AFM). We show that it was necessary to use stain-free imaging to examine these nanoscale assemblies, as the hollow nature of the particles was obscured by application of a heavy metal stain. Additionally, the internal topology of the P(AA)-b-P(LA) particles could be tuned by manipulating the drying conditions to give solid or compartmentalized structures. Upon resuspension, these reorganized nanoparticles retain their hollow structure and display significantly enhanced loading of a hydrophobic dye compared to the original solid cylinders.

Published

2013

14. Dibromomaleimide End Functional Polymers by RAFT Polymerization Without the Need of Protecting Groups.

Author

Robin MP, Jones MW, Haddleton DM, and O'Reilly RK

Abstract

Polymers bearing the dibromomaleimide (DBM) group as a functional chain end have been synthesized by RAFT polymerization. A DBM functional chain transfer agent (CTA) was utilized to afford well-defined P t BA, PMA, and PTEGA, without the requirement of protecting group chemistry. It was found that RAFT polymerization of NIPAM and styrene with this CTA was severely retarded/inhibited which is ascribed to their relatively low propagation rate constants compared to acrylates. This observation is accounted for by a reversible trapping of propagating radicals by the DBM group in RAFT polymerizations using a monomer with low k p . However, further attempts to synthesize DBM-terminated P t BA and PMA by ATRP using an analogous initiator were unsuccessful, and broad PDI were observed. Furthermore, highly efficient postpolymerization functionalization of DBM-terminated PMA produced by RAFT, with the model compound thiophenol was also demonstrated.

Published

2012

15. [Art, writing, lunacy].

Author

Barraud A, Desmaison P, Mas C, Robin MP, and Sansonnet I

Subjects

Germany, Humans, United States, Art, Mental Disorders, Motion Pictures

Published

1987