Part I: High-technology materials
Lithium ion–conducting oxide garnets
Olivine-type battery materials
Natural and synthetic zeolites
Microstructure analysis of chalcopyrite-type CuInSe2 and kesterite-type Cu2ZnSnSe4 absorber layers in thin film solar cells
Surface-engineered silica via plasma polymer deposition
Crystallographic symmetry analysis in NiTi shape memory alloys
Part II: Environmental mineralogy
Gold, silver, and copper in the geosphere and anthroposphere: can industrial wastewater act as an anthropogenic resource?
Applied mineralogy for recovery from the accident of Fukushima Daiichi Nuclear Power Station
Phosphates as safe containers for radionuclides
Immobilization of high-level waste calcine (radwaste) in perovskites
Titanate ceramics for high-level nuclear waste immobilization
Part III: Biomineralization, biomimetics, and medical mineralogy
Patterns of mineral organization in carbonate biological hard materials
Sea urchin spines as role models for biological design and integrative structures
Nacre: a biomineral, a natural biomaterial, and a source of bio-inspiration
Hydroxylapatite coatings: applied mineralogy research in the bioceramics field
A procedure to apply spectroscopic techniques in the investigation of silica-bearing industrial materials
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Veröffentlichung: | 18.12.2017 |
Seiten | 360 |
Art des Mediums | E-Book [Kindle] |
Preis DE | EUR 179.95 |
Preis AT | EUR 179.95 |
Auflage | 1. Auflage |
ISBN-13 | 978-3-110-49508-9 |
Soraya Heuss-Aßbichler and Melanie John, LM University, Munich, Germany.
Georg Amthauer, PL University, Salzburg, Austria.