Maria Tsetseri scite author profile

Maria Tsetseri

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5Publications

84Citation Statements Received

184Citation Statements Given

How they've been cited

How they cite others

Affiliations

National and Kapodistrian University of Athens

Publications

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Shift From a Traditional to a Distance Learning Environment during the COVID-19 Pandemic

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et al. 2021

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The paper reports a study aimed at investigating tertiary education students’ engagement and interactions in the traditional face-to-face learning environment and the sequentially applied distance online learning environment imposed by the sudden upsurge of a worldwide health emergency, the COVID-19 pandemic in Spring 2020. The study took place in four distinct science learning communities formed by a total of 347 undergraduate students attending three different academic majors (Chemistry, Environmental Science, and Food Science and Technology) and 13 postgraduate students attending a Masters program related to Chemistry Education, in two Greek universities. The majority of the measured variables were shown to depend on the institution, the academic major, and the semester of study, although to a varying degree. Data analysis provided evidence for a statistically significant lower level of emotional engagement in the online relative to the traditional learning environment among the students of all three undergraduate learning communities. Multiple regression analysis showed that this documented decrease in students’ emotional engagement is largely explained by the concurrent decrease at the level of human interaction (either student–student or student–instructor) upon the passage from the traditional to the online learning environment.

A study of the ground state of quantum wires using the finite difference method

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2002

Superlattices and Microstructures

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A study for the cartography of the interface roughness of V-shaped AlGaAs/GaAs quantum wires

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et al. 2001

Superlattices and Microstructures

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Mobility in V-shaped quantum wires due to interface roughness and alloy scattering

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2004

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The low temperature mobility in V-shaped AlGaAs/GaAs quantum wires is theoretically investigated. The energy eigenstates and the eigenvalues of the system under study are calculated using a finite difference method. The cartography of the interface allows for realistic values of the rms value of the roughness fluctuations in depth and the autocorrelation length. For one subband occupation we calculate the screened and the unscreened mobility due to the interface roughness scattering. The corresponding mobility exhibits ultrahigh values. We also evaluate the mobility due to alloy scattering. The interface roughness turns out to be the dominant scattering mechanism. When the second electronic subband becomes populated, we investigate the intrasubband and intersubband scattering due to interface roughness, taking into account or excluding screening effects. Comparison is made with other reports.

A systematic study of the electron mobility in V-shaped quantum wires at low temperatures

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2008

Superlattices and Microstructures

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