Joshua Baptiste scite author profile

Joshua Baptiste

5Publications

76Citation Statements Received

289Citation Statements Given

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185

282

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University of Nottingham

Publications

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Coulomb fission in multiply charged molecular clusters: Experiment and theory

Harris

Baptiste

Lindgren

et al. 2017

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A series of three multiply charged molecular clusters, (C6H6)n z+ (benzene), (CH3CN)n z+ (acetonitrile), and (C4H8O)n z+ (tetrahydrofuran), where the charge z is either 3 or 4, have been studied for the purpose of identifying patterns of behaviour close to the charge instability limit.Experiments show that on a time scale of ~10 -4 s, ions close to the limit undergo Coulomb fission where all of the observed pathways exhibit considerable asymmetry in the sizes of the charged fragments, and are associated with kinetic (ejection) energies of between 1.4 and 2.2 eV. Accurate kinetic energies have been determined through a computer simulation of peak profiles recorded in the experiments and the results modelled using a theory formulated to describe how charged particles of dielectric materials interact with one another (Bichoutskaia et al. J. Chem. Phys. 2010, 133, 024105). The calculated electrostatic interaction energy between separating fragments gives an accurate account for the measured kinetic energies and also supports the conclusion that +4 ions fragment into +3 and +1 products as opposed to the alternative of two +2 fragments. This close match between theory and experiment supports the assumption that a significant fraction of excess charge resides on the surfaces of the fragment ions. It is proposed that the high degree of asymmetry seen in the fragmentation patterns of the multiply charged clusters is due, in part, to limits imposed by the time window during which observations are made.2

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Manipulating Interactions between Dielectric Particles with Electric Fields: A General Electrostatic Many-Body Framework

Hassan

Williamson

Baptiste

et al. 2022

J. Chem. Theory Comput.

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We derive a rigorous analytical formalism and propose a numerical method for the quantitative evaluation of the electrostatic interactions between dielectric particles in an external electric field. This formalism also allows for inhomogeneous charge distributions, and, in particular, for the presence of pointlike charges on the particle surface. The theory is based on a boundary integral equation framework and yields analytical expressions for the interaction energy and net forces that can be computed in linear scaling cost, with respect to the number of interacting particles. We include numerical results that validate the proposed method and show the limitations of the fixed dipole approximation at small separation between interacting particles. The proposed method is also applied to study the stability and melting of ionic colloidal crystals in an external electric field.

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Self‐Assembly Behavior of Oppositely Charged Inverse Bipatchy Microcolloids

Mehr

Grigoriev

Heaton

et al. 2020

Small

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A directed attractive interaction between predefined "patchy" sites on the surfaces of anisotropic microcolloids can provide them with the ability to self-assemble in a controlled manner to build target structures of increased complexity. An important step toward the controlled formation of a desired superstructure is to identify reversible electrostatic interactions between patches which allow them to align with one another. The formation of bipatchy particles with two oppositely charged patches fabricated using sandwich microcontact printing is reported. These particles spontaneously self-aggregate in solution, where a diversity of short and long chains of bipatchy particles with different shapes, such as branched, bent, and linear, are formed. Calculations show that chain formation is driven by a combination of attractive electrostatic interactions between oppositely charged patches and the charge-induced polarization of interacting particles.

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The influence of surface charge on the coalescence of ice and dust particles in the mesosphere and lower thermosphere

et al. 2021

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Abstract. Agglomeration of charged ice and dust particles in the mesosphere and lower thermosphere is studied using a classical electrostatic approach, which is extended to capture the induced polarisation of surface charge. Collision outcomes are predicted whilst varying the particle size, charge, dielectric constant, relative kinetic energy, collision geometry and the coefficient of restitution. In addition to Coulomb forces acting on particles of opposite charge, instances of attraction between particles of the same sign of charge are discussed. These attractive forces are governed by the polarisation of surface charge and can be strong at very small separation distances. In the mesosphere and lower thermosphere, these interactions could also contribute to the formation of stable aggregates and contamination of ice particles through collisions with meteoric smoke particles.

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The influence of surface charge on the coalescence of ice and dust particles in the mesosphere

Baptiste¹,

Williamson²,

Fox³

et al. 2020

Preprint

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Abstract. Agglomeration of charged ice and dust particles in the mesosphere is studied using a classical electrostatic approach, which is extended to capture the induced polarisation of surface charge. Collision outcomes are predicted whilst varying particle size, charge, dielectric constant, relative kinetic energy, collision geometry and the coefficient of restitution. In addition to attractive Coulomb forces acting on particles of opposite charge, instances of strong attraction between particles of the same sign of charge are predicted, which take place at small separation distances and also lead to the formation of stable aggregates. These attractive forces are governed by the polarisation of surface charge.

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Joshua Baptiste

Coulomb fission in multiply charged molecular clusters: Experiment and theory

Manipulating Interactions between Dielectric Particles with Electric Fields: A General Electrostatic Many-Body Framework

Self‐Assembly Behavior of Oppositely Charged Inverse Bipatchy Microcolloids

The influence of surface charge on the coalescence of ice and dust particles in the mesosphere and lower thermosphere

The influence of surface charge on the coalescence of ice and dust particles in the mesosphere

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