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Elahe Alizadeh
Researcher at Université de Sherbrooke
Publications - 20
Citations - 947
Elahe Alizadeh is an academic researcher from Université de Sherbrooke. The author has contributed to research in topics: Electron & Dissociation (chemistry). The author has an hindex of 12, co-authored 19 publications receiving 777 citations. Previous affiliations of Elahe Alizadeh include University of Guelph.
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Biomolecular Damage Induced by Ionizing Radiation: The Direct and Indirect Effects of Low-Energy Electrons on DNA
TL;DR: The current understanding of the fundamental mechanisms involved in LEE-induced damage of DNA and complex biomolecule films is summarized and the potential of controlling this damage using molecular and nanoparticle targets with high LEE yields in targeted radiation-based cancer therapies is discussed.
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Precursors of solvated electrons in radiobiological physics and chemistry.
Elahe Alizadeh,Léon Sanche +1 more
TL;DR: This paper presents a meta-analyses of the chiral stationary phase of the ECSBM using a single chiral Monte Carlo method, developed at the University of California, Berkeley, in 1998 and refined at the behest of the manufacturer.
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Radiation Damage to DNA: The Indirect Effect of Low Energy Electrons.
TL;DR: The results indicate that DNA damage induced by LEEs does not increase significantly until the second hydration shell is formed, however, this damage increases dramatically as DNA coverage approaches bulk-like hydration conditions.
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A Single Subexcitation‐Energy Electron Can Induce a Double‐Strand Break in DNA Modified by Platinum Chemotherapeutic Drugs
TL;DR: Insight is revealed into the radiosensitization mechanism of Pt drugs that can have implications for the development of optimal clinical protocols for platinum‐based CCRT and the deployment of in situ sources of subexcitation‐energy electrons to efficiently enhance DSB formation in DNA modified by platinum‐containing anticancer drugs in malignant cells.
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Soft X-ray and low energy electron-induced damage to DNA under N2 and O2 atmospheres.
TL;DR: The results indicate that the oxygen fixation mechanism, which is highly effective in increasing radiobiological effectiveness, under aerobic conditions, is operative on the type of damage created at the early stage of DNA radiolysis by LEEs.