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Literature DB >> 3708106

Macroscopic polarity of connective tissue is due to discrete polar structures.

I Freund, M Deutsch.

Abstract

Mesh：

Year: 1986 PMID： 3708106 DOI： 10.1002/bip.360250406

Source DB: PubMed Journal: Biopolymers ISSN： 0006-3525 Impact factor: 2.505

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6 in total

1. Sum frequency vibrational spectroscopy: the molecular origins of the optical second-order nonlinearity of collagen.

Authors: Israel Rocha-Mendoza; Diego R Yankelevich; Mingshi Wang; Karen M Reiser; Curt W Frank; André Knoesen
Journal: Biophys J Date: 2007-08-31 Impact factor: 4.033

2. Structural origins of chiral second-order optical nonlinearity in collagen: amide I band.

Authors: Karen M Reiser; Alexander B McCourt; Diego R Yankelevich; André Knoesen
Journal: Biophys J Date: 2012-11-20 Impact factor: 4.033

3. Polar organization of collagen in human cardiac tissue revealed with polarimetric second-harmonic generation microscopy.

Authors: Kamdin Mirsanaye; Ahmad Golaraei; Fayez Habach; Edvardas Žurauskas; Jonas Venius; Ricardas Rotomskis; Virginijus Barzda
Journal: Biomed Opt Express Date: 2019-09-10 Impact factor: 3.732

Macroscopic polarity of connective tissue is due to discrete polar structures.

1. Sum frequency vibrational spectroscopy: the molecular origins of the optical second-order nonlinearity of collagen.

2. Structural origins of chiral second-order optical nonlinearity in collagen: amide I band.

3. Polar organization of collagen in human cardiac tissue revealed with polarimetric second-harmonic generation microscopy.

Review 4. Two-photon and second harmonic microscopy in clinical and translational cancer research.

5. Label-free classification of hepatocellular-carcinoma grading using second harmonic generation microscopy.

6. Three-Dimensional Geometry of Collagenous Tissues by Second Harmonic Polarimetry.