tuning surface chemoresistivity of au ultrathin films

  • tuning surface chemoresistivity of au ultrathin films using

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using

    The presented work investigates the chemoresistivity of Au ultrathin films, whose surface is modified by deposition of few monolayers of Au, Pd, or AuPd alloy. The model adsorbate in this study was the HS– ion from 0.1 M NaCl solution having concentrations ranging from 0 to 40 ppm. The Au surface modification was carried out using deposition via surface-limited redox replacement of the

  • electrochemical studies of the effects of ph and the surface

    Electrochemical Studies of the Effects of pH and the Surface

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045.

  • chemical sensing with limo3se3 nanowire films | journal

    Chemical Sensing with LiMo3Se3 Nanowire Films | Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Wei Yang, Liang Feng, Saihuan He, Lingyue Liu, Shantang Liu.

  • (pdf) signal enhancement and tuning of surface plasmon

    (PDF) Signal Enhancement and Tuning of Surface Plasmon

    Using surface plasmon resonance (SPR) spectroscopy in the Kretschmann configuration, we followed the self-assembly of organic ultrathin films which resulted from exposure of gold surfaces to

  • ultrathin films

    Ultrathin Films

    In ultrathin-film interferometry, shown in Figure 31, a lubricated contact is formed by loading and rolling a reflective steel ball against the flat surface of a transparent disk. The disk is coated with both a 5-nm semireflective chromium layer and a 500-nm SiO 2 layer on the active surface to enable very thin lubricant films to be detected

  • ultrathin magnesia films as support for molecules and metal

    Ultrathin magnesia films as support for molecules and metal

    Ultrathin metal oxide films provide the opportunity to influence the electronic structure of adsorbates by varying the layer thickness and the type and number of defects of the film. This has importa...

  • tuning surface chemoresistivity of au ultrathin films using

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using

    The presented work investigates the chemoresistivity of Au ultrathin films, whose surface is modified by deposition of few monolayers of Au, Pd, or AuPd alloy. The model adsorbate in this study was the HS– ion from 0.1 M NaCl solution having concentrations ranging from 0 to 40 ppm. The Au surface modification was carried out using deposition via surface-limited redox replacement of the

  • electrochemical studies of the effects of ph and the surface

    Electrochemical Studies of the Effects of pH and the Surface

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045.

  • chemical sensing with limo3se3 nanowire films | journal

    Chemical Sensing with LiMo3Se3 Nanowire Films | Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Wei Yang, Liang Feng, Saihuan He, Lingyue Liu, Shantang Liu.

  • single nanoporous gold nanowire sensors | the journal

    Single Nanoporous Gold Nanowire Sensors | The Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Deyang Li, Elizabeth J. Podlaha.

  • ultrathin magnesia films as support for molecules and metal

    Ultrathin magnesia films as support for molecules and metal

    Abstract Ultrathin metal oxide films have attracted considerable interest in recent years as versatile substrate for the design of nanocatalytic model systems. In particular, it has been proposed t...

  • ultrathin films

    Ultrathin Films

    Ultrathin-film interdigitated array of electrodes (IDAE) was used for study of the red blood cell sedimentation by impedance method. For investigation of the blood sedimentation process we utilized Si chips with thin-film Au or Pt IDAE of different finger/gap widths of values from 5/5 μm to 400/400 μm.

  • tuning surface chemoresistivity of au ultrathin films using

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using

    The presented work investigates the chemoresistivity of Au ultrathin films, whose surface is modified by deposition of few monolayers of Au, Pd, or AuPd alloy. The model adsorbate in this study was the HS– ion from 0.1 M NaCl solution having concentrations ranging from 0 to 40 ppm. The Au surface modification was carried out using deposition via surface-limited redox replacement of the

  • chemical sensing with limo3se3 nanowire films | journal

    Chemical Sensing with LiMo3Se3 Nanowire Films | Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Wei Yang, Liang Feng, Saihuan He, Lingyue Liu, Shantang Liu.

  • electrochemical studies of the effects of ph and the surface

    Electrochemical Studies of the Effects of pH and the Surface

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045.

  • signal enhancement and tuning of surface plasmon resonance

    Signal Enhancement and Tuning of Surface Plasmon Resonance

    Assembly of Gold Nanoparticles on a Molecular Ultrathin Film: Tuning the Surface Plasmon Resonance. ChemPhysChem 2010, 11 (8) , 1780-1786. DOI: 10.1002/cphc.200900675. Ihor Tokarev, Iryna Tokareva, Venkateshwarlu Gopishetty, Evgeny Katz, Sergiy Minko.

  • ultrathin magnesia films as support for molecules and metal

    Ultrathin magnesia films as support for molecules and metal

    Abstract Ultrathin metal oxide films have attracted considerable interest in recent years as versatile substrate for the design of nanocatalytic model systems. In particular, it has been proposed t...

  • poster fine tuning of spin-orbit splitting in ag ultrathin

    Poster Fine tuning of spin-orbit splitting in Ag ultrathin

    Due to their surface localization, sp-derived Shockley states have been shown to be a unique spectroscopic probe of surface phenomena [1]. In particular, any perturbation of the surface like gas adsorption [2], lateral confinement [3], or surface reconstruction [4] should influence the free-electron like surface state

  • tuning surface chemoresistivity of au ultrathin films using

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using

    The presented work investigates the chemoresistivity of Au ultrathin films, whose surface is modified by deposition of few monolayers of Au, Pd, or AuPd alloy. The model adsorbate in this study was the HS– ion from 0.1 M NaCl solution having concentrations ranging from 0 to 40 ppm. The Au surface modification was carried out using deposition via surface-limited redox replacement of the

  • chemical sensing with limo3se3 nanowire films | journal

    Chemical Sensing with LiMo3Se3 Nanowire Films | Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Wei Yang, Liang Feng, Saihuan He, Lingyue Liu, Shantang Liu.

  • electrochemical studies of the effects of ph and the surface

    Electrochemical Studies of the Effects of pH and the Surface

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045.

  • ultrathin films

    Ultrathin Films

    Ultrathin-film interdigitated array of electrodes (IDAE) was used for study of the red blood cell sedimentation by impedance method. For investigation of the blood sedimentation process we utilized Si chips with thin-film Au or Pt IDAE of different finger/gap widths of values from 5/5 μm to 400/400 μm.

  • poster fine tuning of spin-orbit splitting in ag ultrathin

    Poster Fine tuning of spin-orbit splitting in Ag ultrathin

    poster fine tuning ag ultrathin film spin-orbit splitting sp-derived shockley state surface phenomenon lateral confinement surface localization surface reconstruction gas adsorption surface state unique spectroscopic probe

  • optimizing ultrathin ag films for high performance oxide

    Optimizing ultrathin Ag films for high performance oxide

    Optimizing ultrathin Ag films for high performance oxide-metal-oxide flexible transparent electrodes through surface energy modulation and template-stripping procedures. Sci. Rep. 7 , 44576; doi

  • tuning surface chemoresistivity of au ultrathin films using

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using

    The presented work investigates the chemoresistivity of Au ultrathin films, whose surface is modified by deposition of few monolayers of Au, Pd, or AuPd alloy. The model adsorbate in this study was the HS– ion from 0.1 M NaCl solution having concentrations ranging from 0 to 40 ppm. The Au surface modification was carried out using deposition via surface-limited redox replacement of the

  • chemical sensing with limo3se3 nanowire films | journal

    Chemical Sensing with LiMo3Se3 Nanowire Films | Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Wei Yang, Liang Feng, Saihuan He, Lingyue Liu, Shantang Liu.

  • electrochemical studies of the effects of ph and the surface

    Electrochemical Studies of the Effects of pH and the Surface

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045.

  • signal enhancement and tuning of surface plasmon resonance

    Signal Enhancement and Tuning of Surface Plasmon Resonance

    Assembly of Gold Nanoparticles on a Molecular Ultrathin Film: Tuning the Surface Plasmon Resonance. ChemPhysChem 2010, 11 (8) , 1780-1786. DOI: 10.1002/cphc.200900675. Ihor Tokarev, Iryna Tokareva, Venkateshwarlu Gopishetty, Evgeny Katz, Sergiy Minko.

  • ultrathin magnesia films as support for molecules and metal

    Ultrathin magnesia films as support for molecules and metal

    Abstract Ultrathin metal oxide films have attracted considerable interest in recent years as versatile substrate for the design of nanocatalytic model systems. In particular, it has been proposed t...

  • nikhil dole - google scholar citations

    Nikhil Dole - Google Scholar Citations

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer K Ahmadi, D Wu, N Dole, OR Monteiro, SR Brankovic

  • tuning surface chemoresistivity of au ultrathin films using

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using

    The presented work investigates the chemoresistivity of Au ultrathin films, whose surface is modified by deposition of few monolayers of Au, Pd, or AuPd alloy. The model adsorbate in this study was the HS– ion from 0.1 M NaCl solution having concentrations ranging from 0 to 40 ppm. The Au surface modification was carried out using deposition via surface-limited redox replacement of the

  • electrochemical studies of the effects of ph and the surface

    Electrochemical Studies of the Effects of pH and the Surface

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045.

  • chemical sensing with limo3se3 nanowire films | journal

    Chemical Sensing with LiMo3Se3 Nanowire Films | Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Wei Yang, Liang Feng, Saihuan He, Lingyue Liu, Shantang Liu.

  • o/w microemulsions and hydrotropes: the coupling action of a

    O/W Microemulsions and Hydrotropes: The Coupling Action of a

    Plasmon Absorption of Au-in-CoAl2O4 Linear Nanopeapod Chains. ACS Sensors. Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors. Ultrasensitive and Portable Assay for Lead(II) Ions by Electronic Balance as a Readout. ACS Sensors

  • poster fine tuning of spin-orbit splitting in ag ultrathin

    Poster Fine tuning of spin-orbit splitting in Ag ultrathin

    BibTeX @MISC{Cercellier_posterfine, author = {H. Cercellier and Y. Fagot-revurat and B. Kierren and D. Malterre and D. Popovic and F. Reinert}, title = {Poster Fine tuning of spin-orbit splitting in Ag ultrathin films deposited on Au(111)}, year = {}}

  • ultrathin film

    Ultrathin Film

    Ultrathin-film interdigitated array of electrodes (IDAE) was used for study of the red blood cell sedimentation by impedance method. For investigation of the blood sedimentation process we utilized Si chips with thin-film Au or Pt IDAE of different finger/gap widths of values from 5/5 μm to 400/400 μm.

  • tuning surface chemoresistivity of au ultrathin films using

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using

    The presented work investigates the chemoresistivity of Au ultrathin films, whose surface is modified by deposition of few monolayers of Au, Pd, or AuPd alloy. The model adsorbate in this study was the HS– ion from 0.1 M NaCl solution having concentrations ranging from 0 to 40 ppm. The Au surface modification was carried out using deposition via surface-limited redox replacement of the

  • electrochemical studies of the effects of ph and the surface

    Electrochemical Studies of the Effects of pH and the Surface

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045.

  • chemical sensing with limo3se3 nanowire films | journal

    Chemical Sensing with LiMo3Se3 Nanowire Films | Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Wei Yang, Liang Feng, Saihuan He, Lingyue Liu, Shantang Liu.

  • ultrathin magnesia films as support for molecules and metal

    Ultrathin magnesia films as support for molecules and metal

    Abstract Ultrathin metal oxide films have attracted considerable interest in recent years as versatile substrate for the design of nanocatalytic model systems. In particular, it has been proposed t...

  • ultrathin film

    Ultrathin Film

    Ultrathin-film interdigitated array of electrodes (IDAE) was used for study of the red blood cell sedimentation by impedance method. For investigation of the blood sedimentation process we utilized Si chips with thin-film Au or Pt IDAE of different finger/gap widths of values from 5/5 μm to 400/400 μm.

  • structure evolution during deposition and thermal annealing

    Structure evolution during deposition and thermal annealing

    The evolution of the structure of amorphous carbon (a-C) films during deposition and thermal annealing is of significant interest from both the materials science and application perspectives.

  • tuning surface chemoresistivity of au ultrathin films using

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using

    The presented work investigates the chemoresistivity of Au ultrathin films, whose surface is modified by deposition of few monolayers of Au, Pd, or AuPd alloy. The model adsorbate in this study was the HS– ion from 0.1 M NaCl solution having concentrations ranging from 0 to 40 ppm. The Au surface modification was carried out using deposition via surface-limited redox replacement of the

  • chemical sensing with limo3se3 nanowire films | journal

    Chemical Sensing with LiMo3Se3 Nanowire Films | Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Wei Yang, Liang Feng, Saihuan He, Lingyue Liu, Shantang Liu.

  • acs sensors | vol 4, no 9

    ACS Sensors | Vol 4, No 9

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer Kamyar Ahmadi Dongjun Wu

  • single nanoporous gold nanowire sensors | the journal

    Single Nanoporous Gold Nanowire Sensors | The Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Deyang Li, Elizabeth J. Podlaha.

  • nikhil dole - google scholar citations

    Nikhil Dole - Google Scholar Citations

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer K Ahmadi, D Wu, N Dole, OR Monteiro, SR Brankovic

  • tuning the electrode work function via a vapor-phase

    Tuning the electrode work function via a vapor-phase

    Tuning the electrode work function via a vapor-phase deposited ultrathin polymer film† Jieung Baek , ‡ a Junseok Lee , ‡ b Munkyu Joo , a Donggeon Han , c Houngkyung Kim , b Hyejeong Seong , a Jinsup Lee , b Jihan Kim , a Seunghyup Yoo , cd Seokwoo Jeon * bd and Sung Gap Im * ad

  • tuning surface chemoresistivity of au ultrathin films using

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using

    The presented work investigates the chemoresistivity of Au ultrathin films, whose surface is modified by deposition of few monolayers of Au, Pd, or AuPd alloy. The model adsorbate in this study was the HS– ion from 0.1 M NaCl solution having concentrations ranging from 0 to 40 ppm. The Au surface modification was carried out using deposition via surface-limited redox replacement of the

  • chemical sensing with limo3se3 nanowire films | journal

    Chemical Sensing with LiMo3Se3 Nanowire Films | Journal

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045. Wei Yang, Liang Feng, Saihuan He, Lingyue Liu, Shantang Liu.

  • electrochemical studies of the effects of ph and the surface

    Electrochemical Studies of the Effects of pH and the Surface

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer. ACS Sensors 2019, 4 (9) , 2442-2449. DOI: 10.1021/acssensors.9b01045.

  • ultrathin films

    Ultrathin Films

    Ultrathin-film interdigitated array of electrodes (IDAE) was used for study of the red blood cell sedimentation by impedance method. For investigation of the blood sedimentation process we utilized Si chips with thin-film Au or Pt IDAE of different finger/gap widths of values from 5/5 μm to 400/400 μm.

  • nikhil dole - google scholar citations

    Nikhil Dole - Google Scholar Citations

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer K Ahmadi, D Wu, N Dole, OR Monteiro, SR Brankovic

  • acs sensors | vol 4, no 9

    ACS Sensors | Vol 4, No 9

    Tuning Surface Chemoresistivity of Au Ultrathin Films Using Metal Deposition via Surface-Limited Redox Replacement of the Underpotentially Deposited Pb Monolayer Kamyar Ahmadi Dongjun Wu

  • surface plasmon resonance tuning in gold film on silver

    Surface plasmon resonance tuning in gold film on silver

    The surface plasmon resonance wavelength in a gold film above silver nanospheres on a silica substrate was measured using transmission absorption spec…

  • (pdf) signal enhancement and tuning of surface plasmon

    (PDF) Signal Enhancement and Tuning of Surface Plasmon

    Using surface plasmon resonance (SPR) spectroscopy in the Kretschmann configuration, we followed the self-assembly of organic ultrathin films which resulted from exposure of gold surfaces to

  • resonance in au nanoparticle/polyelectrolyte ultrathin films

    Resonance in Au Nanoparticle/Polyelectrolyte Ultrathin Films

    Signal Enhancement and Tuning of Surface Plasmon Resonance in Au Nanoparticle/ Polyelectrolyte Ultrathin Films Guoqian Jiang,† Akira Baba,†,‡ Hiroshi Ikarashi,§ Risheng Xu,† Jason Locklin,† Khan Rana Kashif,† Kazunari Shinbo,‡,§ Keizo Kato,‡,§ Futao Kaneko,‡,§ and Rigoberto Advincula*,†

  • ultrathin magnesia films as support for molecules and metal

    Ultrathin magnesia films as support for molecules and metal

    Abstract Ultrathin metal oxide films have attracted considerable interest in recent years as versatile substrate for the design of nanocatalytic model systems. In particular, it has been proposed t...

  • tensile testing of ultra-thin films on water surface | nature

    Tensile testing of ultra-thin films on water surface | Nature

    (a) The tensile testing system consists of a load cell, a linear stage and a DIC camera on an anti-vibration table. (b) The ultra-thin Au film afloat on the water surface with alignment and grip

  • poster fine tuning of spin-orbit splitting in ag ultrathin

    Poster Fine tuning of spin-orbit splitting in Ag ultrathin

    poster fine tuning ag ultrathin film spin-orbit splitting sp-derived shockley state surface phenomenon lateral confinement surface localization surface reconstruction gas adsorption surface state unique spectroscopic probe

  • metal‐microstructure based flexible transparent electrodes

    Metal‐microstructure based flexible transparent electrodes

    Finally, they got a high‐quality ultrathin Ag film, giving an extremely low surface roughness with an RMS below 0.5 nm and low resistivity (0.8 × 10 −7 Ω m). Xu et al. [ 37 ] developed a continuous uniform hybrid Au/Ag electrode by sequentially evaporating a 0.8‐nm‐thick Au layer as the nucleation seed layer and a 15‐nm‐thick Ag

  • poster fine tuning of spin-orbit splitting in ag ultrathin

    Poster Fine tuning of spin-orbit splitting in Ag ultrathin

    poster fine tuning ag ultrathin film spin-orbit splitting sp-derived shockley state surface phenomenon lateral confinement surface localization surface reconstruction gas adsorption surface state unique spectroscopic probe

  • altering the dewetting characteristics of ultrathin gold

    Altering the dewetting characteristics of ultrathin gold

    A continuous ultrathin metal film deposited on a substrate at room temperature exists in such a metastable state if the surface energy of the metal is greater than that of the substrate material. Thermodynamics drives such a system toward a geometry which will reduce the surface area of the metal.

  • ultra-thin moo3 film goes wafer-scaled nano-architectonics

    Ultra-thin MoO3 film goes wafer-scaled nano-architectonics

    Practically, the granular Au substrate of present study with its heights and hills is considered as rough surface for deposition of ultra-thin quasi-2D oxide films. The development of continues ultra-thin MoO 3 nano-film with the measured thickness of ~4.6 nm is observed in Fig. 9 (b).

  • stabilization of ultrathin (hydroxy)oxide films on transition

    Stabilization of ultrathin (hydroxy)oxide films on transition

    Here, using density functional theory calculations and electrochemical surface science measurements, we explore atomic-level features of ultrathin (hydroxy)oxide films on transition metal

  • ir spectroscopy of adsorbates on ultrathin metal films

    IR spectroscopy of adsorbates on ultrathin metal films

    Abstract Metal films with thickness in the nanometer range are optically transparent. With IR transmittance spectroscopy the in‐plane film conductivity with its correlation to the film‐growth proce...