Electroanalytical Chemistry: A Series Of Advances: Volume 21, Volume 21Israel Rubinstein CRC Press, 18 giu 1999 - 368 pagine Provides comprehensive, authoritative reviews on recent developments and applications of well-established techniques in the field of modern electro- and electroanalytical chemistry, defined in its broadest sense. |
Sommario
2 | |
5 | |
8 | |
24 | |
30 | |
VI Nanomaterials in Secondary Battery Research and Development | 48 |
References | 70 |
ELECTROCHEMICAL ATOMIC LAYER EPITAXY | 75 |
VI Directions | 193 |
References | 196 |
SCANNING TUNNELING MICROSCOPY STUDIES OF METAL ELECTRODES | 211 |
I Introduction | 212 |
II Quantum Mechanical Tunneling | 219 |
III Experimental Considerations | 244 |
IV Applications | 252 |
References | 295 |
II Thin Layer Electrochemical Cell Studies | 100 |
III Thin Film Formation Using ECALE | 120 |
IV Surface Chemistry in the ECALE Cycle | 145 |
V Digital Electrochemical Etching | 180 |
Author Index | 317 |
Subject Index | 345 |
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Electroanalytical Chemistry: A Series Of Advances: Volume 21, Volume 21 Israel Rubinstein Anteprima limitata - 1999 |
Parole e frasi comuni
A. J. Bard adlayer adsorbed adsorption anion annealing Appl aqueous atomic layer atomically resolved bulk C. R. Martin CdSe CdTe Codeposition pH cell Chem chemical cm² Codeposition DMSO compound control electrode coulometry coverage crystal CuInSe2 D. M. Kolb deposition potential digital etching DMSO ECALE cycle elec Electrochem electrochemical cell Electrochemistry electrodeposition electrolyte element flux formation formed function growth HgCdTe ions Itaya J. L. Stickney Langmuir LEED pattern Lett LiMn2O4 M. J. Weaver macroelectrode material method Microscopy microtubular molecules monolayer nanotubule membranes nanowires noble metal O. M. Magnussen observed overpotential oxidation Phys pores pyridine R. J. Behm redox reduction scan rate Scanning Tunneling Microscopy shown in Fig solution step STM images STM studies structure substrate Surf Te² template thin films thiol tion TiS2 TLEC tubules tunnel junction voltammetry voltammograms ZnSe
Brani popolari
Pagina 212 - Nothing tends so much to the advancement of knowledge as the application of a new instrument. The native intellectual powers of man in different times are not so much the causes of the different success of their labours as the peculiar nature of the means and artificial resources in their possession.
Pagina 196 - MA Herman and H. Sitter, Molecular Beam Epitaxy: Fundamentals and Current Status, Springer- Verlag, Berlin, 1989.
Pagina 296 - JA Dagata, J. Schneir, HH Harary, CJ Evans, MT Postek, and J. Bennett, "Modification of hydrogenpassivated silicon by a scanning tunneling microscope operating in air
Pagina 299 - Pleskov and ZA Rotenberg, in Advances in Electrochemistry and Electrochemical Engineering, Vol. 1 1 (H. Gerischer and CW Tobias, eds.), Wiley, New York, 1978.
Pagina 74 - MD Porter, TB Bright, DL Allara, and CED Chidsey, J. Am. Chem. Soc. 109. 3559 (1987).
Pagina 2 - Reproducibility: More than 20% of this document may be affected by microfiche quality (Contract N00014-82-K-T612) (AD-A288373; TR-98) Avail: Issuing Activity (Defense Technical Information Center (DTIC)) Nanochemistry is an emerging subdiscipline in the chemical and materials sciences that deals with the development of methods for synthesizing nanoscopic bits of a desired material and with chemical and other investigations of the nanomaterial obtained. My research group has been exploring a general...
Pagina iii - This series is designed to provide authoritative reviews in the field of modern electroanalytical chemistry defined in its broadest sense.
Pagina 301 - H. Dai, JH Hafner, AG Rinzler, DT Colbert, and RE Smalley. Nature 384, 147 (1996).
Pagina 299 - R. Gaisch, JK Gimzewski, B. Reihl, RR Schlittler, WD Schneider, and M. Tschudy, Science 262, 1425 (1993).
Riferimenti a questo libro
Instrumental Methods of Analysis Hobart Hurd Willard,Lynne Lionel Merritt,John Aurie Dean Visualizzazione estratti - 1974 |