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Your search keyword '"Botros, M"' showing total 224 results
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224 results on '"Botros, M"'

1. High-entropy and compositionally complex battery materials.

Author

Strauss, F., Botros, M., Breitung, B., and Brezesinski, T.

Subjects
*ELECTRIC batteries, *ENERGY density, *ELECTRIC charge, *ENERGY storage, *STORAGE batteries, *ELECTRIC vehicles, *ENERGY consumption, *SUPERIONIC conductors
Abstract

The global demand for high energy density batteries, mostly for application in electric vehicles, offering increased durability, safety, and sustainability is growing rapidly. In the past, this demand has been met primarily by the development and/or improvement of new/established battery materials and technologies. The high-entropy design concept—aiming at increasing chemical complexity/occupational disorder—has recently been introduced into the field of electrochemical energy storage. Various high-entropy battery materials that are seemingly capable of outperforming low-entropy counterparts by offering desirable properties have been reported. However, future studies are required to explore if the concept is broadly applicable and can be extended to all types of battery materials, especially those that are of industrial relevance. Herein, we provide a brief overview of the existing high-entropy anodes, cathodes, and solid/liquid electrolytes for use in rechargeable Li- or Na-ion batteries and discuss potential research directions and opportunities. [ABSTRACT FROM AUTHOR]

Published
2024
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3. The preformation probability inside Alpha-emitters having different ground state spin-parity than daughters

Author

Seif, W. M., Botros, M. M., and Refaie, A. I.

Subjects
Nuclear Theory
Abstract

The ground-state spin and parity of a formed daughter in the radioactive Alpha-emitter is expected to influence the preformation probability of the Alpha and daughter clusters inside it. We investigate the Alpha and daughter preformation probability inside odd-A and doubly-odd radioactive nuclei when the daughter and parent are of different spin and/or parity. We consider only the ground-state to ground-state unfavored decays. This is to extract precise information about the effect of the difference in the ground states spin-parity of the involved nuclei far away any influences from the excitation energy if the decays are coming from isomeric states. The calculations are done for 161 Alpha-emitters, with Z=65-112 and N=84-173, in the framework of the extended cluster model, with WKB penetrability and assault frequency. We used a Hamiltonian energy density scheme based on Skyrme-SLy4 interaction to compute the interaction potential. The Alpha plus cluster preformation probability is extracted from the calculated decay width and the experimental half-life time. We discussed in detailed steps the effect of angular momentum of the emitted Alpha-particle on the various physical quantities involved in the unfavored decay process and how it is finally increases the half-life time. We found that if the ground states spin and/or parity of parent and daughter nuclei are different, then the preformation probability of the Alpha-cluster inside parent is less than it would be if they have similar spin-parity. We modified the formula that gives the Alpha preformation probability in terms of the numbers of protons and neutrons outside the shell closures of parent, to account for this hindrance in the preformation probability for the unfavored decays between ground states.

Published
2015
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25. Enhanced biological carbon consumption in a high C[O.sub.2] ocean

Author

Riebesell, U., Schulz, K.G., Bellerby, R.G.J., Botros, M., Fritsche, P., Meyerhofer, M., Neill, C., Nondal, G., Oschlies, A., Wohlers, J., and Zollner, E.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The oceans have absorbed nearly half of the fossil-fuel carbon dioxide (C[O.sub.2]) emitted into the atmosphere since pre-industrial times (1), causing a measurable reduction in seawater pH and carbonate saturation [...]

Published
2007

41. Chemical Gradients in Cu(In,Ga)(S,Se)2 Thin-Film Solar Cells: Results of the GRACIS Project

Author

Witte, W., Powalla, M., Hariskos, D., Eicke, A., Botros, M., Schock, H.-W., Abou-Ras, D., Mainz, R., Rodríguez-Alvarez, H., Unold, T., Bauer, G.H., Brüggemann, R., Heise, S.J., Neumann, O., Meessen, M., Christen, J., Bertram, F., Klein, A., Adler, T., Albe, K., Pohl, J., Martin, M., De Souza, R.A., Nagarajan, L., Beckers, T., Boit, C., Dietrich, J., Hetterich, M., Zhang, Z., Scheer, R., Kempa, H., and Orgis, T.

Subjects
Thin Film Solar Cells, CdTe, CIS and Related Ternary and Quaternary Thin Film Solar Cells
Abstract

27th European Photovoltaic Solar Energy Conference and Exhibition; 2166-2173, The German joint research project “Chemical Gradients in Cu(In,Ga)(S,Se)2” (GRACIS) is an initiative to gain a better physical understanding concerning the formation of chemical gradients in the Cu(In,Ga)(S,Se)2 (CIGS) absorber layers and at the CIGS/buffer interface. This article presents the current status of the GRACIS project after three years of execution with results concerning phase formation during chalcogenization and coevaporation processes, influence of Ga grading on structural and electrical parameters as well as on inhomogeneities on the μm scale of CIGS. Special features of the CIGS/Zn(O,S) buffer interface are discussed and compared to CIGS solar cells with CdS buffer. In addition, our experimental results are supported by 3D simulations and calculations using screened-exchanged hybrid density functional theory.

Published
2012
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43. Extending Cold Ischemic Time Using LUNGguard: A Single Center Experience in Time Shifting.

Author

Botros, M., Alsaghayer, A., Tanabe, C., Armas, K., Mabry, M., Goodarzi, A., Yau, S., Youssef, J., Huang, H., Ren, D., and Suarez, E.

Subjects
*TIME management, *LUNG transplantation, *SOFT tissue injuries
Abstract

The LUNGguard Organ Transport System (LG) is an FDA approved device for transporting donor lungs between 4°C - 8°C, mitigating freezing-related cellular and tissue injury. Given recent research on favorable recipient outcomes using LG, we theorized that LG may allow for time-shifting of procedures to the morning to optimize OR and transplant team logistics. The use of LUNGguard for this application in a real-world scenario was evaluated. Beginning April 2022, Houston Methodist Hospital began utilizing LG to extend cold ischemic time (CIT) to the morning hours to improve OR and transplant team logistics. This included preserving OR time for emergency cases and having full daytime staff available at the time of transplantation. At the time of this submission, a total of 10 cases were completed using LG at Houston Methodist Hospital. 7 of these cases utilized LG to shift the case to morning hours. Three time shift cases were double lung transplants (DLT). Three LG cases that were not time shifted were also DLT. Average total ischemic time in time shift cases was 469.4 minutes, and 329.7 minutes in non-time shift cases. Average temperature across time shift cases was 6.1°Celsius, and 5.5°Celsius in non-time shift cases. Average ICU length of stay (LOS) in time shift cases was 7.9 days as compared to 10.3 days in non-time shift cases. Total LOS was 22 days in time shift cases as compared to 65.5 days in the comparator group (not accounting for one patient death during index admission). Days to room air was 8 vs 11.5 days. No primary graft dysfunction (PGD) was diagnosed in cases using LG for time shifting. Our hypothesis that LG can be used to safely time shift cases to the morning hours appears to be supported with this initial evidence. No PGD was detected in time shift cases. ICU LOS, total LOS, time to liberation from oxygen were all found to be shorter in time shift cases. This includes comparing all time shift to non-time shift cases, as well as DLT time shift cases to DLT non-time shift cases. [ABSTRACT FROM AUTHOR]

Published
2023
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47. Adiabatic and coupled channels calculations for near barrier fusion of OU using realistic nucleon-nucleon interaction.

Author

Ismail, M., Seif, W. M., and Botros, M. M.

Subjects
NUCLEON-nucleon interactions, YUKAWA interactions, NUCLEAR fusion, NUCLEAR cross sections, ROTATIONAL motion, DEGREES of freedom
Abstract

We investigate the fusion cross-section and the fusion barrier distribution of OU at near- and sub-barrier energies. We use an interaction potential generated by the semi-microscopic double folding model-based on density dependent (DD) form of the realistic Michigan-three-Yukawa (M3Y) Reid nucleon-nucleon (NN) interaction. We studied the role of both the static and dynamic deformations of the target nucleus on the fusion process. Rotational and vibrational degrees of freedom of U-nucleus are considered. We found that the deformation and the octupole vibrations in U enhance its sub-barrier fusion cross-section. The signature of the the octupole vibrational modes of U appears clearly in its fusion barrier distribution profile. [ABSTRACT FROM AUTHOR]

Published
2016
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49. Management of Atypical Lipomas With Radiation

Author

Kang, J., primary, Botros, M., additional, Goldberg, S., additional, Giraud, C., additional, Nielsen, G., additional, Chen, Y., additional, Raskin, K., additional, Schwab, J.H., additional, Delaney, T.F., additional, and Hornicek, F.J., additional

Published
2012
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