Gil Rosenman
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Explore the profile of Gil Rosenman including associated specialties, affiliations and a list of published articles.
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Articles
26
Citations
328
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Recent Articles
1.
Rosenbaum P, Barhom H, Inberg A, Lapsker I, Rosenman G, Apter B
Opt Express
. 2024 Feb;
32(3):4485-4497.
PMID: 38297649
Fluorescent (FL) encrypting nanostructures, such as quantum dots, carbon dots, organic dyes, lanthanide nanocrystals, DNA, and more, are effective tools for advanced applications in high-resolution hidden imaging. These applications include...
2.
Machnev A, Ofer D, Shishkin I, Kozlov V, Diaferia C, Accardo A, et al.
Sci Rep
. 2021 Sep;
11(1):17609.
PMID: 34475484
Bioinspired fluorescence, being widely explored for imaging purposes, faces challenges in delivering bright biocompatible sources. While quite a few techniques have been developed to reach this goal, encapsulation of high-quantum...
3.
Apter B, Lapshina N, Handelman A, Rosenman G
J Pept Sci
. 2019 Mar;
25(5):e3164.
PMID: 30900328
Basic optical properties of bioinspired peptide nanostructures are deeply modified by thermally mediated refolding of peptide secondary structure from α-helical to β-sheet. This conformational transition is followed by the appearance...
4.
Joseph S, Kuritz N, Yahel E, Lapshina N, Rosenman G, Natan A
J Phys Chem A
. 2019 Feb;
123(9):1758-1765.
PMID: 30753080
We employ molecular dynamics (MD) and time-dependent density functional theory (TDDFT) to explore the fluorescence of hydrogen-bonded dimer and trimer structures of cyclic FF (Phe-Phe) molecules. We show that in...
5.
Apter B, Lapshina N, Handelman A, Fainberg B, Rosenman G
Small
. 2018 Jul;
14(34):e1801147.
PMID: 30027685
Optical waveguiding phenomena found in bioinspired chemically synthesized peptide nanostructures are a new paradigm which can revolutionize emerging fields of precise medicine and health monitoring. A unique combination of their...
6.
Handelman A, Lapshina N, Apter B, Rosenman G
Adv Mater
. 2017 Dec;
30(5).
PMID: 29226468
Bio-nanophotonics is a wide field in which advanced optical materials, biomedicine, fundamental optics, and nanotechnology are combined and result in the development of biomedical optical chips. Silk fibers or synthetic...
7.
Gilboa B, Lafargue C, Handelman A, Shimon L, Rosenman G, Zyss J, et al.
Adv Sci (Weinh)
. 2017 Sep;
4(9):1700052.
PMID: 28932664
Short peptides made from repeating units of phenylalanine self-assemble into a remarkable variety of micro- and nanostructures including tubes, tapes, spheres, and fibrils. These bio-organic structures are found to possess...
8.
Handelman A, Apter B, Shostak T, Rosenman G
J Pept Sci
. 2016 Dec;
23(2):95-103.
PMID: 27966267
Small-scale optical devices, designed and fabricated onto one dielectric substrate, create integrated optical chip like their microelectronic analogues. These photonic circuits, based on diverse physical phenomena such as light-matter interaction,...
9.
Handelman A, Apter B, Turko N, Rosenman G
Acta Biomater
. 2015 Nov;
30:72-77.
PMID: 26546415
Unique linear and nonlinear optical properties of bioinspired peptide nanostructures such as wideband transparency and high second-order nonlinear optical response, combined with elongated tubular shape of variable size and rapid...
10.
Handelman A, Kuritz N, Natan A, Rosenman G
Langmuir
. 2015 Oct;
32(12):2847-62.
PMID: 26496411
A reconstructive phase transition has been found and studied in ultrashort di- and tripeptide nanostructures, self-assembled from biomolecules of different compositions and origin such as aromatic, aliphatic, linear, and cyclic...