Electrochemical studies of self-assembled monolayers using impedance spectroscopy

[1]  M. Arroyo-Hernández,et al.  One step processing of aminofunctionalized gate oxides. , 2007, Biosensors & bioelectronics.

[2]  R. Kumar,et al.  Self-assembled monolayers as Cu diffusion barriers for ultralow-k dielectrics , 2006 .

[3]  D K Aswal,et al.  Self assembled monolayers on silicon for molecular electronics. , 2006, Analytica chimica acta.

[4]  E. Faber Toward the hybrid organic semiconductor FET (HOSFET) electrical and electrochemical characterization of functionalized and unfunctionalized, covalently bound organic monolayers on silicon , 2006 .

[5]  M. J. Deen,et al.  Model for the field effect from layers of biological macromolecules on the gates of metal-oxide-semiconductor transistors , 2005 .

[6]  B. Bhushan,et al.  Protein binding on thermally grown silicon dioxide , 2005 .

[7]  Tetsuya Osaka,et al.  Organosilane self-assembled monolayer-modified field effect transistors for on-chip ion and biomolecule sensing , 2005 .

[8]  E. Barsoukov,et al.  Impedance spectroscopy : theory, experiment, and applications , 2005 .

[9]  G. Whitesides,et al.  Self-assembled monolayers of thiolates on metals as a form of nanotechnology. , 2005, Chemical reviews.

[10]  Gengfeng Zheng,et al.  Electrical detection of single viruses. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[11]  W. Liao,et al.  Characterization of protein immobilization on alkyl monolayer modified silicon(1 1 1) surface , 2004 .

[12]  M. Srinivasan,et al.  Self-assembled molecular films of aminosilanes and their immobilization capacities. , 2004, Langmuir : the ACS journal of surfaces and colloids.

[13]  J. González‐Benito,et al.  Hydrolytic damage study of the silane coupling region in coated silica microfibres: pH and coating type effects , 2003 .

[14]  G. Ramanath,et al.  Self-assembled subnanolayers as interfacial adhesion enhancers and diffusion barriers for integrated circuits , 2003 .

[15]  J. Justin Gooding,et al.  Self-Assembled Monolayers into the 21st Century: Recent Advances and Applications , 2003 .

[16]  C. Cabrera,et al.  Chemical derivatization of self-assembled 3-mercaptopropionic and 16-mercaptohexadecanoic acids at platinum surfaces with 3-aminopropyltrimethoxysilane: a spectroscopic and electrochemical study , 2003 .

[17]  Janos H. Fendler,et al.  Chemical Self-assembly for Electronic Applications , 2001 .

[18]  Hua-Zhong Yu,et al.  Molecularly Tunable “Organic Capacitors” at Silicon/Aqueous Electrolyte Interfaces1 , 2000 .

[19]  Jiyu Fang,et al.  Structure and Growth of Chromophore-Functionalized (3-Aminopropyl)triethoxysilane Self-Assembled on Silicon , 2000 .

[20]  B. Prasad,et al.  A capacitive immunosensor measurement system with a lock-in amplifier and potentiostatic control by software , 1999 .

[21]  J. Justin Gooding,et al.  The application of alkanethiol self-assembled monolayers to enzyme electrodes , 1999 .

[22]  D. Mandler,et al.  Applications of self-assembled monolayers in electroanalytical chemistry , 1996 .

[23]  D. Vuillaume,et al.  Octadecyltrichlorosilane monolayers as ultrathin gate insulating films in metal‐insulator‐semiconductor devices , 1993 .

[24]  H. Nishihara,et al.  Self‐Assembled Layers of Alkanethiols on Copper for Protection Against Corrosion , 1993 .

[25]  A. Ulman,et al.  Ultrathin organic films: From Langmuir-Blodgett to self assembly , 1991 .

[26]  George M. Whitesides,et al.  Structure and reactivity of alkylsiloxane monolayers formed by reaction of alkyltrichlorosilanes on silicon substrates , 1989 .

[27]  T. Wink,et al.  Self-assembled monolayers for biosensors. , 1997, The Analyst.

[28]  Allen J. Bard,et al.  Electrochemical Methods: Fundamentals and Applications , 1980 .