Your search keyword '"Centeno, Silvia P."' showing total 3 results

1. Tailoring the Properties of Optical Force Probes for Polymer Mechanochemistry.

Author

He, Siyang, Stratigaki, Maria, Centeno, Silvia P., Dreuw, Andreas, and Göstl, Robert

Subjects

MECHANICAL chemistry, MECHANICAL behavior of materials, OPTICAL properties, SCINTILLATORS, POLYMERS, RUBBER

Abstract

The correlation of mechanical properties of polymer materials with those of their molecular constituents is the foundation for their holistic comprehension and eventually for improved material designs and syntheses. Over the last decade, optical force probes (OFPs) were developed, shedding light on various unique mechanical behaviors of materials. The properties of polymers are diverse, ranging from soft hydrogels to ultra‐tough composites, from purely elastic rubbers to viscous colloidal solutions, and from transparent glasses to super black dyed coatings. Only very recently, researchers started to develop tailored OFP solutions that account for such material requirements in energy (both light and force), in time, and in their spatially detectable resolution. We here highlight notable recent examples and identify future challenges in this emergent field. [ABSTRACT FROM AUTHOR]

Published

2021

2. Frontispiece: Tailoring the Properties of Optical Force Probes for Polymer Mechanochemistry.

Author

He, Siyang, Stratigaki, Maria, Centeno, Silvia P., Dreuw, Andreas, and Göstl, Robert

Subjects

OPTICAL properties, MECHANICAL chemistry, KELVIN probe force microscopy, POLYMERS, MECHANICAL behavior of materials

Abstract

Chemiluminescence, fluorescence, mechanochemistry, polymers, sensors Keywords: chemiluminescence; fluorescence; mechanochemistry; polymers; sensors EN chemiluminescence fluorescence mechanochemistry polymers sensors 1 1 1 11/19/21 20211117 NES 211117 B Optical force probes (OFPs) b shine light on various unique mechanical behaviors of materials and allow the correlation of macroscopic mechanical properties with those of their molecular constituents. [Extracted from the article]

Published

2021

3. Front Cover: Tailoring the Properties of Optical Force Probes for Polymer Mechanochemistry (Chem. Eur. J. 64/2021).

Author

He, Siyang, Stratigaki, Maria, Centeno, Silvia P., Dreuw, Andreas, and Göstl, Robert

Subjects

OPTICAL properties, MECHANICAL chemistry, POLYMERS

Abstract

Chemiluminescence, fluorescence, mechanochemistry, polymers, sensors Keywords: chemiluminescence; fluorescence; mechanochemistry; polymers; sensors EN chemiluminescence fluorescence mechanochemistry polymers sensors 15823 15823 1 11/19/21 20211117 NES 211117 B As potential analytical tools b for collecting and mapping mechanical information in polymer materials, optical force probes (OFPs) have been developed over the last decade. [Extracted from the article]

Published

2021