Marc Baghdadi scite author profile

Marc Baghdadi

3Publications

51Citation Statements Received

130Citation Statements Given

How they've been cited

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123

Affiliations

University of Warwick, Coventry (United Kingdom), Institut National des Sciences Appliquées de Lyon

Publications

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Nanoscale intermittent contact-scanning electrochemical microscopy

Lazenby

McKelvey

Peruffo

et al. 2013

J Solid State Electrochem

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Contribution to the Festschrift for Allen J. Bard, on the occasion of his 80 th birthday.2 Abstract A major theme in scanning electrochemical microscopy (SECM) is methodology for nanoscale imaging with distance control and positional feedback of the tip. We report the expansion of intermittent contact (IC)-SECM to the nanoscale, using disk-type Pt nanoelectrodes prepared using the laser-puller sealing method. The Pt was exposed using a focused ion beam milling procedure to cut the end of the electrode to a well-defined glass sheath radius, which could also be used to reshape the tips to reduce the size of the glass sheath. This produced nanoelectrodes that were slightly recessed, which was optimal for IC-SECM on the nanoscale, as it served to protect the active part of the tip. A combination of finite element method simulations, steady-state voltammety and scanning electron microscopy, for the measurement of critical dimensions, was used to estimate Pt recession depth. With this knowledge, the tip-substrate alignment could be further estimated by tip approach curve measurements. IC-SECM has been implemented by using a piezo-bender actuator for the detection of damping of the oscillation amplitude of the tip, when IC occurs, which was used as a tip position feedback mechanism. The piezo-bender actuator improves significantly on the performance of our previous setup for IC-SECM, as the force acting on the sample due to the tip is greatly reduced, allowing studies with more delicate tips. The capability of IC-SECM is illustrated with studies of a model electrode (metal/glass) substrate.

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Spatial heterogeneity enhances and modulates excitability in a mathematical model of the myometrium

Sheldon

Baghdadi

McCloskey

et al. 2013

J. R. Soc. Interface.

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The muscular layer of the uterus (myometrium) undergoes profound changes in global excitability prior to parturition. Here, a mathematical model of the myocyte network is developed to investigate the hypothesis that spatial heterogeneity is essential to the transition from local to global excitation which the myometrium undergoes just prior to birth. Each myometrial smooth muscle cell is represented by an element with FitzHugh-Nagumo dynamics. The cells are coupled through resistors that represent gap junctions. Spatial heterogeneity is introduced by means of stochastic variation in coupling strengths, with parameters derived from physiological data. Numerical simulations indicate that even modest increases in the heterogeneity of the system can amplify the ability of locally applied stimuli to elicit global excitation. Moreover, in networks driven by a pacemaker cell, global oscillations of excitation are impeded in fully connected and strongly coupled networks. The ability of a locally stimulated cell or pacemaker cell to excite the network is shown to be strongly dependent on the local spatial correlation structure of the couplings. In summary, spatial heterogeneity is a key factor in enhancing and modulating global excitability.

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Arsenic Implant Activation and Redistribution in P-Type Silicon Induced by Pulsed Electron Beam Annealing

et al. 1982

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In this work Pulsed Electron Beam Annealing has been used to Sctivaye As implanted in (100) and (111) silicon (140 keV- 1015 cm−2 ). With a selected electron beam energy deposition profile excellent regrowth layer quality and As activation has been obtained in the 1.2–1.4 J/cm2 fluence range. As redistribution is conistent with the melting model assuming a diffusivity of 10−4 cm2/s in liquid silicon. As losses might slightly reduce the carrier concentration near the surface in the case of (100) silicon. However a shallow and highly active N+ layer have been achieved with optimized PEBA conditions.

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Marc Baghdadi

Nanoscale intermittent contact-scanning electrochemical microscopy

Spatial heterogeneity enhances and modulates excitability in a mathematical model of the myometrium

Arsenic Implant Activation and Redistribution in P-Type Silicon Induced by Pulsed Electron Beam Annealing

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