Joanna E. Mroczkowska scite author profile

Since its first fabrication by exfoliation in 2014, phosphorene has been the focus of rapidly expanding research activities. The number of phosphorene publications has been increasing at a rate exceeding that of other two-dimensional materials. This tremendous level of excitement arises from the unique properties of phosphorene, including its puckered layer structure. With its widely tunable band gap, strong in-plane anisotropy, and high carrier mobility, phosphorene is at the center of numerous fundamental studies and applications spanning from electronic, optoelectronic, and spintronic devices to sensors, actuators, and thermoelectrics to energy conversion, and storage devices. Here, we review the most significant recent studies in the field of phosphorene research and technology. Our focus is on the synthesis and layer number determination, anisotropic properties, tuning of the band gap and related properties, strain engineering, and applications in electronics, thermoelectrics, and energy storage. The current needs and likely future research directions for phosphorene are also discussed. , there has been a quest for new two-dimensional (2D) materials aimed at fully exploring new fundamental phenomena stemming from quantum confinement and size effects. This quest has spurred new areas of research with rapid growth from both theoretical and experimental fronts aimed at technological advancements. Among recently discovered 2D materials, phosphorene is one of the most intriguing due to its exotic properties and numerous foreseeable applications.2 This review discusses recent advances in phosphorene research with special emphasis on: (i) fabrication and techniques for rapid identification of the number of layers; (ii) anisotropic behavior; (iii) band gap and property tuning; (iv) strain engineering and mechanical properties; (v) devices and applications; and (vi) future directions.2D materials composed of a single-atom-thick or a singlepolyhedral-thick layer can be grouped into diverse categories.

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Fitness Trade-Offs inbla_TEMEvolution

Mroczkowska

Barlow

2008

Antimicrob Agents Chemother

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bla TEM-1 expression results in penicillin resistance, whereas expression of many bla TEM-1 descendants, called extended-spectrum ␤-lactamases (ESBLs), results simultaneously in resistance to penicillins and extendedspectrum cephalosporins. Despite the expanded resistance phenotypes conferred by many ESBLs, bla TEM-1 is still the most abundant bla TEM allele in many microbial populations. This study examines the fitness effects of the two amino acid substitutions, R164S and E240K, that have occurred repeatedly among ESBL bla TEM-1 descendants. Using a single-nucleotide polymorphism-specific real-time quantitative PCR method, we analyzed the fitness of strains expressing bla TEM-1 , bla TEM-10 , and bla TEM-12 . Our results show that bacteria expressing the ancestral bla TEM-1 allele have a fitness advantage over those expressing either bla TEM-10 or bla TEM-12 when exposed to ampicillin. This observation, combined with the fact that penicillins are the most prevalent antimicrobials prescribed worldwide, may explain why bla TEM-1 has persisted as the most frequently encountered bla TEM allele in bacterial populations.

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Evidence for an Asymmetrical Uptake of L-Carnitine in the Blood-Brain Barrierin Vitro

Mroczkowska

Galla

Nałȩcz

et al. 1997

Biochemical and Biophysical Research Communications

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Blood–Brain Barrier Controls Carnitine Level in the Brain: A Study on a Model System with RBE4 Cells

Mroczkowska

Roux

Nałȩcz

et al. 2000

Biochemical and Biophysical Research Communications

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Transport of carnitine in RBE4 cells - an in vitro model of blood-brain barrier

Mroczkowska

Roux

Galla

et al. 1996

Neurosci. Res. Comm.

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Accumulation of carnitine was studied in immortalized rat brain capillary endothelial cells RBE4, as an in vitro model of blood‐brain barrier. Both uptake and efflux phenomena were found independent on [Na+] gradient. A quick acylation of carnitine in RBE4 cells was observed, especially leading to formation of long‐chain acylcarnitines (46%), while 38% of the accumulated compound was found in the form of free carnitine. Exposure of basolateral membrane to carnitine‐free medium induced a quick efflux, leaving, however, about 50% of accumulated carnitine inside the cells. The process of accumulation was found to be sensitive to butyrobetaine and cysteine, but not to choline or Hemicholinium‐3, pointing to sterical demands of a transporter responsible for carnitine uptake.

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