Photoelectrochemical Solar Conversion Systems
Regular price
€80.99
14 days return policy
Shipping & Delivery
A01=Andres G. Munoz
advanced photoelectrochemical conversion systems
AFM Picture
Au Nanoparticles
Author_Andres G. Munoz
band
Band Bending
Band Potential
Binding Energy
Capacitance Voltage Curve
carrier
Category=PHFC
charge
Compact Oxide
eld
electric
electron
electron transfer theory
Energy Band Diagram
eq_bestseller
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
eq_science
Exchange Current Density
Fermi Level
Fermi Level Pinning
gap
Hydrogen Evolution
Hydrogen Evolution Reaction
Jellium Model
layer
Metal Electrolyte Interface
nanostructured catalysts
Oxide Electrolyte Interface
Oxide Growth
Oxide Thickness
Photoelectrochemical Cell
Potential Drop
quantum interface physics
semiconductor electrochemistry
Si Si Back Bonds
Si SiO2 Interface
solar energy materials
space
Space Charge Layer
Spp
surface spectroscopy methods
transfer
Voltage
Product details
- ISBN 9780367380687
- Weight: 703g
- Dimensions: 156 x 234mm
- Publication Date: 23 Oct 2019
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Paperback
Secure
checkout
Fast Shipping
Easy returns
Providing new insights into the molecular and electronic processes involved in the conversion of sunlight into chemical products, Photoelectrochemical Solar Conversion Systems: Molecular and Electronic Aspects begins with an historical overview and a survey of recent developments in the electrochemistry of semiconductors and spectroscopic techniques. It then provides a comprehensive introduction to the science of conversion cells, reviews current issues and potential directions, and covers a wide range of materials from organic to inorganic cells.
Employing a tutorial organization with balanced coverage of electrochemistry and solar energy conversion, this book covers:
-
- The conversion of sunlight into chemical energy and different actual conversion concepts
-
- Electrochemical methods for the construction and characterization of electrolyte-metal-oxide-semiconductor contacts (EMOS) in the nanodimensions, the so-called nano-emitter concept, including the electrochemical formation of metal clusters of catalytic metals and the formation of passivating layers by anodization
-
- The fundamentals of electrocatalysis with emphasis on the hydrogen evolution reaction and the electrochemical CO2 reduction
-
- Classical and quantum mechanical theories of electron transfer reactions in metal-electrolyte interfaces and their relation with surface electronics
-
- The physicochemical characterization of the model system Si-SiOx-metal-electrolyte by means of modern electrochemical, surface, and spectroscopic methods
-
- Improvements of conversion efficiency by means of optical effects, for example, the generation of surface plasmons by nano-dimensioned arrangements of optically active metals
Muñoz, Andrés G.
