Formation of smooth, conformal molecular layers on ZnO surfaces via photochemical grafting.

We have investigated the photochemical grafting of organic alkenes to atomically flat ZnO(10 ̅10) single crystals and ZnO nanorods as a way to produce functional molecule-semiconductor interfaces. Atomic force microscopy shows that photochemical grafting produces highly conformal, smooth molecular layers with no detectable changes in the underlying structure of the ZnO terraces or steps. X-ray photoelectron spectroscopy measurements show that grafting of a methyl ester-terminated alkene terminates near one monolayer, while alkenes bearing a trifluoroacetamide-protected amine form very smooth multilayers. Even with multilayers, it is possible to deprotect the amines and to link a second molecule to the surface with excellent efficiency and without significant loss of molecules from the surface. This demonstrates that the use of photochemical grafting, even in the case of multilayer formation, enables multistep chemical processes to be conducted on the ZnO surface. Photoresponse measurements demonstrate that functionalization of the surface does not affect the ability to induce field effects in the underlying ZnO, thereby suggesting that this approach to functionalization may be useful for applications in sensing and in hybrid organic-inorganic transistors and related devices.

[1]  Peter J. Hotchkiss,et al.  Characterization of phosphonic acid binding to zinc oxide , 2011 .

[2]  K. R. Mann,et al.  Binding and Static Quenching Behavior of a Terthiophene Carboxylate on Monodispersed Zinc Oxide Nanocrystals , 2011 .

[3]  M. Muhler,et al.  Hydrogen loading of oxide powder particles: a transmission IR study for the case of zinc oxide. , 2010, Chemphyschem : a European journal of chemical physics and physical chemistry.

[4]  Tami Lasseter Clare,et al.  Surface functionalization of thin-film diamond for highly stable and selective biological interfaces , 2010, Proceedings of the National Academy of Sciences.

[5]  M. Muhler,et al.  Probing the reactivity of ZnO and Au/ZnO nanoparticles by methanol adsorption: a TPD and DRIFTS study. , 2010, Chemphyschem : a European journal of chemical physics and physical chemistry.

[6]  Elizabeth C. Landis,et al.  Surface chemistry for stable and smart molecular and biomolecular interfaces via photochemical grafting of alkenes. , 2010, Accounts of chemical research.

[7]  R. Hamers,et al.  UV-induced grafting of alkenes to silicon surfaces: photoemission versus excitons. , 2010, Journal of the American Chemical Society.

[8]  J. Butler,et al.  Photochemical Grafting of Alkenes onto Carbon Surfaces: Identifying the Roles of Electrons and Holes , 2010 .

[9]  Beibei Zhang,et al.  Surface functionalization of zinc oxide by carboxyalkylphosphonic acid self-assembled monolayers. , 2010, Langmuir : the ACS journal of surfaces and colloids.

[10]  C. Perkins Molecular Anchors for Self-Assembled Monolayers on ZnO: A Direct Comparison of the Thiol and Phosphonic Acid Moieties , 2009 .

[11]  Elizabeth C. Landis,et al.  Highly stable molecular layers on nanocrystalline anatase TiO2 through photochemical grafting. , 2009, Langmuir : the ACS journal of surfaces and colloids.

[12]  Elizabeth C. Landis,et al.  Photochemical grafting and patterning of biomolecular layers onto TiO2 thin films. , 2009, ACS applied materials & interfaces.

[13]  W. Peukert,et al.  Communication via Electron and Energy Transfer between Zinc Oxide Nanoparticles and Organic Adsorbates , 2009 .

[14]  M. Muhler,et al.  The identification of hydroxyl groups on ZnO nanoparticles by infrared spectroscopy. , 2008, Physical chemistry chemical physics : PCCP.

[15]  C. G. Allen,et al.  Surface modification of ZnO using triethoxysilane-based molecules. , 2008, Langmuir : the ACS journal of surfaces and colloids.

[16]  Alex K.-Y. Jen,et al.  Polymer Solar Cells That Use Self‐Assembled‐Monolayer‐ Modified ZnO/Metals as Cathodes , 2008 .

[17]  Si Xiao,et al.  Surface functionalization of ZnO nanotetrapods with photoactive and electroactive organic monolayers. , 2008, Langmuir : the ACS journal of surfaces and colloids.

[18]  R. Hamers,et al.  Enhancement of Photochemical Grafting of Terminal Alkenes at Surfaces via Molecular Mediators: The Role of Surface-Bound Electron Acceptors , 2008 .

[19]  J. Meiss,et al.  Flexible inorganic nanowire light-emitting diode. , 2008, Nano letters.

[20]  R. Hamers,et al.  Photochemical grafting of n-alkenes onto carbon surfaces: the role of photoelectron ejection. , 2007, Journal of the American Chemical Society.

[21]  Yulin Deng,et al.  Giant enhancement in UV response of ZnO nanobelts by polymer surface-functionalization. , 2007, Journal of the American Chemical Society.

[22]  J. M. Merino,et al.  Magnetic properties of ZnO nanoparticles. , 2007, Nano letters.

[23]  Yi Li,et al.  Enhancing the electrical and optoelectronic performance of nanobelt devices by molecular surface functionalization. , 2007, Nano letters.

[24]  Lloyd M. Smith,et al.  Covalent photochemical functionalization of amorphous carbon thin films for integrated real-time biosensing. , 2006, Langmuir : the ACS journal of surfaces and colloids.

[25]  Michel Manfait,et al.  Correcting Attenuated Total Reflection—Fourier Transform Infrared Spectra for Water Vapor and Carbon Dioxide , 2006, Applied spectroscopy.

[26]  B. Nichols,et al.  Photochemical functionalization of gallium nitride thin films with molecular and biomolecular layers. , 2006, Langmuir : the ACS journal of surfaces and colloids.

[27]  Ganesh D. Sockalingum,et al.  Pre‐processing in biochemometrics: correction for path‐length and temperature effects of water in FTIR bio‐spectroscopy by EMSC , 2006 .

[28]  H. Fujioka,et al.  Characteristics of Single Crystal ZnO Annealed in a Ceramic ZnO Box and Its Application for Epitaxial Growth of GaN , 2006 .

[29]  M. Schiek,et al.  Water adsorption on the hydroxylated H-(1x1) O-ZnO(0001) surface. , 2006, Physical chemistry chemical physics : PCCP.

[30]  Dong Wang,et al.  Binding studies of molecular linkers to ZnO and MgZnO nanotip films. , 2006, The journal of physical chemistry. B.

[31]  J. Vohs,et al.  Reactions of CH3SH and (CH3)2S2 on the (0001) and (000) Surfaces of ZnO. , 2005, The journal of physical chemistry. B.

[32]  J. N. Russell,et al.  Photochemical functionalization of hydrogen-terminated diamond surfaces: a structural and mechanistic study. , 2005, The journal of physical chemistry. B.

[33]  R. Könenkamp,et al.  Ultraviolet electroluminescence from ZnO/polymer heterojunction light-emitting diodes. , 2005, Nano letters.

[34]  B. Nichols,et al.  Covalent Functionalization for Biomolecular Recognition on Vertically Aligned Carbon Nanofibers , 2005 .

[35]  Peidong Yang,et al.  Nanowire dye-sensitized solar cells , 2005, Nature materials.

[36]  Xiaoniu Yang,et al.  Hybrid zinc oxide conjugated polymer bulk heterojunction solar cells. , 2005, The journal of physical chemistry. B.

[37]  Desheng Jiang,et al.  Zinc oxide nanorod and nanowire for humidity sensor , 2005 .

[38]  Tiancheng Wang,et al.  Oxygen sensing characteristics of individual ZnO nanowire transistors , 2004 .

[39]  Chenglu Lin,et al.  Fabrication and ethanol sensing characteristics of ZnO nanowire gas sensors , 2004 .

[40]  L. Liz‐Marzán,et al.  Size Effects in ZnO: The Cluster to Quantum Dot Transition , 2003 .

[41]  G. Amin,et al.  Photoconductive UV detectors on sol–gel-synthesized ZnO films , 2003 .

[42]  L. Vayssieres Growth of Arrayed Nanorods and Nanowires of ZnO from Aqueous Solutions , 2003 .

[43]  Lloyd M. Smith,et al.  DNA-modified nanocrystalline diamond thin-films as stable, biologically active substrates , 2002, Nature materials.

[44]  A. Fadeev,et al.  Self-assembled monolayers supported on TiO2: Comparison of C18H37SiX3 (X = H, Cl, OCH3), C18H37Si(CH3)2Cl, and C18H37PO(OH)2 , 2002 .

[45]  Takashi Sekiguchi,et al.  Low‐Temperature Fabrication of Light‐Emitting Zinc Oxide Micropatterns Using Self‐Assembled Monolayers , 2002 .

[46]  J. N. Russell,et al.  Photochemical Functionalization of Diamond Films , 2002 .

[47]  Daniel T. Schwartz,et al.  Electrodeposited Nanocomposite n–p Heterojunctions for Solid-State Dye-Sensitized Photovoltaics , 2000 .

[48]  J. Buriak,et al.  Hydrogermylation of Alkenes and Alkynes on Hydride-Terminated Ge(100) Surfaces , 2000 .

[49]  Qingyi Pan,et al.  Grain size control and gas sensing properties of ZnO gas sensor , 2000 .

[50]  R. Cicero,et al.  Photoreactivity of Unsaturated Compounds with Hydrogen-Terminated Silicon(111) , 2000 .

[51]  Anders Hagfeldt,et al.  Studies of the adsorption process of Ru complexes in nanoporous ZnO electrodes , 2000 .

[52]  J. N. Russell,et al.  Photochemical Attachment of Fluorobutyl Moieties on a Diamond (110)-Oriented Surface: A Multiple Internal Reflection Infrared Spectroscopic (MIRIRS) Investigation , 1998 .

[53]  Partha Mitra,et al.  ZnO thin film sensor , 1998 .

[54]  K. Domen,et al.  Infrared study of hydrogenation of benzoic acid to benzaldehyde on ZrO2 catalysts , 1993 .

[55]  M. Porter,et al.  Atomic scale imaging of alkanethiolate monolayers at gold surfaces with atomic force microscopy , 1992 .

[56]  G. Oskam,et al.  A reappraisal of the frequency dependence of the impedance of semiconductor electrodes , 1991 .

[57]  J. Vohs,et al.  Structure sensitivity, selectivity, and adsorbed intermediates in the reactions of acetone and 2-propanol on the polar surfaces of zinc oxide , 1991 .

[58]  J. Vohs,et al.  Formation of stable alkyl and carboxylate intermediates in the reactions of aldehydes on the zinc oxide (0001) surface , 1989 .

[59]  P. Samskog,et al.  An EPR study of a radical anion in x‐ray irradiated trifluoroacetamide single crystals at 3 K , 1983 .

[60]  H. Kung,et al.  Interaction of CO, CO2 and O2 with nonpolar, stepped and polar Zn surfaces of ZnO , 1982 .

[61]  J. Schoonman,et al.  Donor Densities in TiO2 Photoelectrodes , 1981 .

[62]  Michael A. Butler,et al.  Photoelectrolysis and physical properties of the semiconducting electrode WO2 , 1977 .

[63]  R. D. Nasby,et al.  Tungsten trioxide as an electrode for photoelectrolysis of water , 1976 .

[64]  F. Cardon,et al.  On the Interpretation of Mott‐Schottky Plots Determined at Semiconductor/Electrolyte Systems , 1975 .

[65]  L. Goodman,et al.  Assignment of out-of-plane vibrational modes in benzaldehyde , 1971 .

[66]  R. Nyquist,et al.  An infrared study of some α-substituted secondary amides in solution , 1964 .

[67]  Michael Wraback,et al.  Ultraviolet detectors based on epitaxial ZnO films grown by MOCVD , 2000 .

[68]  T. Pradeep,et al.  Characterisation of alkanethiol (CnH2n + 1SH, n = 3, 4, 6, 8,10,12 and 18) self assembled monolayers by X-ray photoelectron spectroscopy , 1998 .

[69]  F. Cardon,et al.  Electron energy levels in semiconductor electrochemistry , 1982 .

[70]  G. Strobl,et al.  Phase transitions in crystals of chain molecules. Relation between defect structures and molecular motion in the four modifications of n-C33H68 , 1980 .