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eBook Porous Silicon in Practice: Preparation, Characterization and Applications download
Science
Author: M. J. Sailor
ISBN: 3527313788
Subcategory: Chemistry
Pages 262 pages
Publisher Wiley-VCH; 1 edition (December 12, 2011)
Language English
Category: Science
Rating: 4.3
Votes: 884
ePUB size: 1385 kb
FB2 size: 1443 kb
DJVU size: 1805 kb
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eBook Porous Silicon in Practice: Preparation, Characterization and Applications download

by M. J. Sailor


Preparation, Characterization and Applications Find, read and cite all . June 2013 · Chromatographia.

The degradation of porous silicon in aqueous solution depends on several factors, with pH being a key factor. In acidic or neutral aqueous media, the degradation proceeds slowly but in basic solutions, hydroxide reacts with both Si-H and Si-O surface species.

This book presents a real conflict for me in that the author states it is written for the beginner, even to the extent of someone who has no previous training in the . Myers, P. Michael J. Sailor: Porous Silicon in Practice. Preparation, Characterization and Applications.

This book presents a real conflict for me in that the author states it is written for the beginner, even to the extent of someone who has no previous training in the field, but then goes on to describe the use of hydrofluoric acid. The use of HF is not for a beginner in any field. Chromatographia 76, 721 (2013) doi:10.

Michael J. Sailor Porous Silicon in Practice Fundamentals of Porous Silicon Preparation 1 Introduction 1 Chemical . Preface This book is written for the beginner – someone who has no prior training in the field. Sailor Porous Silicon in Practice.

This book is a very well written, practical, "hands-on" book of porous silicon. 1. It provides detailed protocols and practice experiments following the techniques explained throughout the book to help the reader experience firsthand and understand the theory by practice.

Preparation, Characterization and Applications . By means of electrochemical treatment, crystalline silicon can be permeated with tiny, nanostructured pores that entirely change the characteristics and properties of the material. Written by an outstanding, well-recognized expert in the field, this book provides detailed, step-by-step instructions to prepare and characterize the major types of porous silicon.

Porous Silicon in Practice book. Goodreads helps you keep track of books you want to read. By means of electrochemical treatment, crystalline silicon can. Start by marking Porous Silicon in Practice: Preparation, Characterization and Applications as Want to Read: Want to Read savin. ant to Read.

Porous silicon in practice: preparation, characterization and applications. Fabrication, characterization, and applications in biosensing. A Janshoff, KPS Dancil, C Steinem, DP Greiner, VSY Lin, C Gurtner,. John Wiley & Sons, 2012. Journal of the American Chemical Society 120 (46), 12108-12116, 1998.

75 3 Preparation of Spatially Modulated Porous Silicon Layers 77 . Time-Programmable Current . 119 . Freestanding Films of Porous Silicon-"Lift-offs". 120 . Micron-scale Particles of Porous Silicon by. Ultrasonication of Lift-off Films. Time-Programmable Current Source. 1 Time Resolution Issues. 2 Etching with an Analog Source. 3 Etching with a Digital Source 119 . Core-Shell (Si/SiO2) Nanoparticles of Luminescent. Porous Silicon by Ultrasonication. 130 5 Characterization of Porous Silicon.

Porous silicon is generated by etching crystalline silicon in aqueous or non-aqueous electrolytes containing hydrouoric acid (HF).

Porous silicon is generated by etching crystalline silicon in aqueous or non-aqueous electrolytes containing hydrouoric acid (HF). This book describes basic electrochemical and chemical etching experiments that can be used to make the main types and structures of porous silicon. Beginning with measurement of wafer resistivity, the experiments are intended for the newcomer to the eld, written in the form of detailed procedures, including sources for the materials and equipment.

Items related to Porous Silicon in Practice: Preparation, Characterization. Sailor has been working in the porous silicon field for 20 years. M. J. Sailor Porous Silicon in Practice: Preparation, Characterization and Applications. ISBN 13: 9783527313785. Porous Silicon in Practice: Preparation, Characterization and Applications. degree in Chemistry from Harvey Mudd College (Claremont, CA) and a PhD in Chemistry from Northwestern University (Chicago). He holds the position of Professor in the Department of Chemistry and Biochemistry at the University of California, San Diego (UCSD).

By means of electrochemical treatment, crystalline silicon can be permeated with tiny, nanostructured pores that entirely change the characteristics and properties of the material. One prominent example of this can be seen in the interaction of porous silicon with living cells,which can be totally unwilling to settle on smooth silicon surfaces but readily adhere to porous silicon, giving rise to great hopes for suchfuture applications as programmable drug delivery or advanced, braincontrolled prosthetics. Porous silicon research is active in the fieldsof sensors, tissue engineering, medical therapeutics and diagnostics, photovoltaics, rechargeable batteries, energetic materials, photonics,and MEMS (Micro Electro Mechanical Systems). Written by an outstanding, well-recognized expert in the field, this book provides detailed, step-by-step instructions to prepare and characterize the major types of porous silicon. It is intended for those new to the fi eld. Sampling of topics covered: * Principles of Etching Porous Silicon* Etch Cell Construction and Considerations* Photonic Crystals, Microcavities, and Bragg Stacks Etched in Silicon* Preparation of Free-standing Films and Particles of Porous Silicon* Preparation of Photoluminescent Nanoparticles from Porous Silicon* Preparation of Silicon Nanowires by Electrochemical Etch of Silicon* Surface Modifi cation Chemistry and Biochemistry* Measurement of Optical Properties* Measurement of Pore Size, Porosity, Thickness, Surface AreaThe whole is backed by a generous use of color photographs to illustrate the described procedures in detail, plus a bibliography of furtherliterature pertinent to a wide range of application fi elds. For materials scientists, chemists, physicists, optical physicists, biomaterialsscientists, neurobiologists, bioengineers, and graduate students in those fields, as well as those working in the semiconductor industry.
Braendo
This book has the detailed information on this topic that I was seeking. It is highly specialized, but it is well done if this is what you need to understand this aspect of nanotechnology.
Andriodtargeted
Outstanding book
Xirmiu
This book is a very well written, practical, "hands-on" book of porous silicon. The author M. J. Sailor is one of the most well known scientists in the field of porous silicon research. His research spans from the fundamental of porous silicon to the cutting-edge applications of the material in various areas such as explosive and toxin detection, optical encoding, biosensing, tumor imaging, drug delivery, nano-medicine, etc.

The book begins with the history and fundamental of porous silicon, chemistry and mechanism involved in porous silicon formation, and information about the starting materials (silicon wafers) and instruments. It then demonstrates in detail how to prepare and characterize various types of porous silicon materials, from luminescent n type porous silicon to spatially modulated conductive p type porous silicon, from thin films with different porous features to nano and micro-particles with defined size and optical properties. Surface chemistry and modification is covered at last to provide methods to fine tune the material for different applications.

In addition to the vast amount of information, here are some of the features of the book that I found EXTREMELY helpful:

1. It provides detailed protocols and practice experiments following the techniques explained throughout the book to help the reader experience firsthand and understand the theory by practice.

2. The author provides open source programs (etching, data analysis, etc.) to accompany the book and maintains update regularly.

3. Vendors and model numbers of the parts and instruments used/assembled in the book are provided so the experimental setups can be readily replicated.

4. The book even includes engineering diagrams and schematics of various types of etch cells and gas dosing cells for readers to use.

To conclude, for people who work in the field of porous semiconductors especially porous silicon, this book is a must have.