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Functional properties of advanced en...

La Porta, Felipe A.

Functional properties of advanced engineering materials and biomolecules

Record Type:	Electronic resources : Monograph/item
Title/Author:	Functional properties of advanced engineering materials and biomoleculesedited by Felipe A. La Porta, Carlton A. Taft.
other author:	La Porta, Felipe A.
Published:	Cham :Springer International Publishing :2021.
Description:	viii, 780 p. :ill., digital ;24 cm.
Contained By:	Springer Nature eBook
Subject:	Materials.
Online resource:	https://doi.org/10.1007/978-3-030-62226-8
ISBN:	9783030622268$q(electronic bk.)

Functional properties of advanced engineering materials and biomolecules
Functional properties of advanced engineering materials and biomolecules[electronic resource] /edited by Felipe A. La Porta, Carlton A. Taft. - Cham :Springer International Publishing :2021. - viii, 780 p. :ill., digital ;24 cm. - Engineering materials,1612-1317. - Engineering materials..

1. ZnO/bentonite hybrids obtained by a simple method of synthesis and applied as catalyst for biodiesel production -- 2. Review: Simulation models for materials and biomolecules -- 3. Perovskite-like quantum dots designed for advanced optoelectronic applications -- 4. Fundamentals and Advances of the Oxidant Peroxide Method (OPM) for the Synthesis of Transition Metal Oxides -- 5. Photoluminescence in alkaline earth stannate thin films grown by physical and chemical methods -- 6. DFT Simulations for Heterogeneous Photocatalysis from ZnO and CuO Semiconductors -- 7. Atomically controlled two-dimensional heterostructures: Synthesis, Characterization and Applications -- 8. Overall insights into sustainable utilization of methane and carbon dioxide in heterogeneous catalysis -- 9. Recent advances in the fabrication of BiVO4 photoanodes and CuBi2O4 photocathodes for the photoelectrochemical water splitting -- 10. Photodynamic Therapy: use of nanocarrier systems to improve its effectiveness.

This book shows how a small toolbox of experimental techniques, physical chemistry concepts as well as quantum/classical mechanics and statistical methods can be used to understand, explain and even predict extraordinary applications of these advanced engineering materials and biomolecules. It highlights how improving the material foresight by design, including the fundamental understanding of their physical and chemical properties, can provide new technological levels in the future.

ISBN: 9783030622268$q(electronic bk.)

Standard No.: 10.1007/978-3-030-62226-8doiSubjects--Topical Terms:

203115
Materials.

LC Class. No.: TA403.6 / .F85 2021

Dewey Class. No.: 620.11

Functional properties of advanced engineering materials and biomolecules
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245 0 0 $a Functional properties of advanced engineering materials and biomolecules $h [electronic resource] / $c edited by Felipe A. La Porta, Carlton A. Taft.
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300 $a viii, 780 p. : $b ill., digital ; $c 24 cm.
490 1 $a Engineering materials, $x 1612-1317
505 0 $a 1. ZnO/bentonite hybrids obtained by a simple method of synthesis and applied as catalyst for biodiesel production -- 2. Review: Simulation models for materials and biomolecules -- 3. Perovskite-like quantum dots designed for advanced optoelectronic applications -- 4. Fundamentals and Advances of the Oxidant Peroxide Method (OPM) for the Synthesis of Transition Metal Oxides -- 5. Photoluminescence in alkaline earth stannate thin films grown by physical and chemical methods -- 6. DFT Simulations for Heterogeneous Photocatalysis from ZnO and CuO Semiconductors -- 7. Atomically controlled two-dimensional heterostructures: Synthesis, Characterization and Applications -- 8. Overall insights into sustainable utilization of methane and carbon dioxide in heterogeneous catalysis -- 9. Recent advances in the fabrication of BiVO4 photoanodes and CuBi2O4 photocathodes for the photoelectrochemical water splitting -- 10. Photodynamic Therapy: use of nanocarrier systems to improve its effectiveness.
520 $a This book shows how a small toolbox of experimental techniques, physical chemistry concepts as well as quantum/classical mechanics and statistical methods can be used to understand, explain and even predict extraordinary applications of these advanced engineering materials and biomolecules. It highlights how improving the material foresight by design, including the fundamental understanding of their physical and chemical properties, can provide new technological levels in the future.
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700 1 $a La Porta, Felipe A. $3 892109
700 1 $a Taft, Carlton A. $3 863784
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