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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

Scanning desorption of small molecules from model biological surfaces.

Silver, Bruce (Bruce Richard) January 1977 (has links)
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 1977 / Includes bibliographical references. / Ph. D. / Ph. D. Massachusetts Institute of Technology, Department of Physics
42

Cooperative Assembly of 2D-MOF Nanoplatelets into Hierarchical Carpets and Tubular Superstructures for Advanced Air Filtration

Schwotzer, Friedrich, Horak, Jacob, Senkovska, Irena, Schade, Elke, Gorelik, Tatiana E., Wollmann, Philipp, Anh, Mai Lê, Ruck, Michael, Kaiser, Ute, Weidinger, Inez M., Kaskel, Stefan 11 June 2024 (has links)
Clean air is an indispensable prerequisite for human health. The capture of small toxic molecules requires the development of advanced materials for air filtration. Two-dimensional nanomaterials offer highly accessible surface areas but for real-world applications their assembly into well-defined hierarchical mesostructures is essential. DUT-134(Cu) ([Cu2(dttc)2]n, dttc=dithieno[3,2-b : 2′,3′-d]thiophene-2,6-dicarboxylate]) is a metal–organic framework forming platelet-shaped particles, that can be organized into complex structures, such as millimeter large free-standing layers (carpets) and tubes. The structured material demonstrates enhanced accessibility of open metal sites and significantly enhanced H2S adsorption capacity in gas filtering tests compared with traditional bulk analogues.
43

Chemisorption of aromatic molecules on Si(100)-2x1 : an HREELS study

Alkunshalie, Talal January 1998 (has links)
No description available.
44

'1H NMR studies of hydrogen and carbon monoxide chemisorption on the EUROPt-1 catalyst

Bouyssy, Pierre X. J. January 2001 (has links)
No description available.
45

Estudo de Primeiros Princípios do Mecanismo de Adsorção da Molécula de O2 sobre a Superfície de CdTe(110) / First Principle Study of Adsorption Mechanism of O2 Molecule on CdTe(110) Surface

Kiss, Ferenc Diniz 15 April 2005 (has links)
Utilizando a Teoria do Funcional da Densidade junto com o formalismo do pseudopotencial de primeiros princípios, realizamos um estudo sistemático do processo de adsorção da molécula de oxigênio sobre a superfície livre de CdTe (110) nas reconstruções 1x1, 1x2 e 2x1. Este estudo consistiu na determinação das adsorções energeticamente favoráveis e na viabilidade de suas formações através da análise das barreiras de ativação. Nossas análises indicam que apenas uma molécula de oxigênio adsorve sobre a superfície livre em uma reconstrução 1x1 e que não ocorre a quebra da molécula durante o processo de adsorção. As estruturas formadas foram divididas nos regimes de baixas e altas temperaturas. Do estudo das barreiras de ativação verificamos que no regime de baixas temperaturas a molécula de oxigênio liga-se exclusivamente ao Cd da primeira camada através de ligações Cd-O-O ou Cd-O2. A configuração da superfície de CdTe com a molécula adsorvida, se assemelha a configuração do cristal. As estruturas de faixas de energia neste regime apresentam um estado característico de defeito duplo aceitador. Para o regime de altas temperaturas, a molécula adsorve entre o Cd da primeira camada e o Te da segunda camada, quebrando esta ligação Cd-Te e também quebrando a ligação que o Cd da segunda camada realiza com o Te da terceira camada. O complexo formado apresenta ligações Cd-O, Cd-O2, Te-O e O-O e as estruturas de faixas de energia apresentam um gap indireto entre os pontos gama e X de 1.30 eV. / Density Functional Theory with first-principles pseudopotential formalism have been used to a systematic research of the oxygen molecule adsorption on the free surface of CdTe(110) in the 1x1, 1x2 and 2x1 reconstructions. This research was based on the determination of the adsorptions energetically favorables and the viability of each formation through their activation barriers analysis. This analysis indicates that only one oxygen molecule adsorbs over the free surface of the CdTe(110) in the 1x1 reconstruction and that the dissociation of the molecule does not occur during the adsorption process. The structures were divided on the high and low temperature regimes. From the activation barriers study it was verified that on the regime of low temperatures the oxygen molecule bind exclusively to the Cd of the first layer through the Cd-O-O or Cd-O$_2$ bonds. The CdTe surface configuration with the adsorbed molecule looks like a crystal configuration. The energy band structure, on this regime, shows a characteristic state of double acceptor defect. For the high temperature regime the molecule adsorbs between the Cd of the first layer and the Te of second layer, breaking the Cd-Te bond between them and also breaking the bonds that the Cd of the second layer does with the third layer. The complex shows Cd-O, Cd-O2, Te-O and O-O bonds and the energy band structure shows an indirect gap between the gamma and X points of 1.30eV.
46

The influence of molecular structure of vapor phase chemisorbed fatty acids present in fractional monolayer concentrations on the wettability of cellulose film.

Swanson, Ronald E. 01 January 1976 (has links)
No description available.
47

A kinetic study of medium consistency chlorination

Burns, Barbara J. 01 January 1996 (has links)
No description available.
48

Electrochemical hydrogenation of aromatic compounds chemisorbed at polycrystalline and single-crystal Pd surfaces

Sanabria-Chinchilla, Jean 02 June 2009 (has links)
The chemisorption and electrochemical hydrogenation of hydroquinone (H2Q) at polycrystalline (pc) Pd, well-ordered Pd(100), and Pd-modified Au(hkl) electrodes were studied using a combination of ultra-high vacuum (UHV) surface spectroscopy, electrochemistry (EC), and electrochemical mass spectrometry (EC-MS). H2Q was found to form a slightly tilted flat-oriented quinone (Q) adlayer, when adsorbed from low concentrations; when chemisorbed from high concentrations, an edgewise-oriented H2Q adlayer was indicated. The hydrogenation of the chemisorbed layer is initiated at potentials before the onset of the hydrogen evolution region. As expected, the kinetics increases as the applied potential is increased, but the hydrogenation pathway appears to be independent of the potential. Hydrogenation in the absence of absorbed hydrogen (sub-surface) was studied at ultra-thin Pd films on Au single-crystal substrates. Hydrogenation and/or potential induced desorption were established, although non-volatile and/or hydrophobic products were detected. In comparison, negative excursions with benzene-coated electrodes resulted in nothing more than potential-induced desorption of the starting material. Negative-potential electro-desorption was more facile at terraces than at steps. Vibrational spectroscopic measurements suggested that hydrogenation occurs one molecule at a time to the fullest extent that resulted in desorption of product; that is, partially hydrogenated species do not exist on the surface.
49

The Dependence of the Sticking Property of a Carbon Gas-phase Atom on C(100) on the Incident Angle

Shui, Jin-Hua 12 July 2002 (has links)
We use the first-principles molecular-dynamics¡@simulation method (MD), which is based on the density functional theory (DFT) with local-density approximation (LDA), to calculate the sticking property of a carbon atom on hydrogen covered C(100) surface. We focused on trajectories and kinetic energy transfer of the gas-phase C atom for four incident angles of =0, £k/8, £k/6 and £k/4. We find that the calculated trajectories and the kinetic energy transfer of the gas-phase atom, Cn, overall are not very sensitive to the change of the incident angle. The insensitivity of the sticking property on the incident angle may be due to a large chemisorption energy, which bends the trajectory of Cn toward the surface, so that Cn is confined to move within a small range.
50

Chemisorption and anodic oxidation of aromatic molecules on Pd electrode surfaces: studies by UHV-EC-STM

Chen, Xiaole 12 April 2006 (has links)
The chemisorption and anodic oxidation of hydroquinone (H2Q) and benzoquinone (BQ) at palladium electrode surfaces was studied by a combination of electrochemistry (EC), Auger electron spectroscopy (AES), high-resolution electron- energy loss spectroscopy (HREELS) and electrochemical-scanning tunneling microscopy (EC-STM) on a smooth polycrystalline and well-defined (single-crystalline) Pd(100) electrode surface. The results point to the following more critical conclusions: (i) Chemisorption of H2Q from dilute (less than or equal to 0.1 mM) aqueous solutions forms surface- coordinated BQ oriented parallel albeit with a slight tilt. (ii) At high concentrations (greater than or equal to 1mM), chemisorption yields an edge-vertical oriented diphenolic species. (iii) The extent of anodic oxidation of the chemisorbed organic strongly depends upon its initial orientation; only the flat-adsorbed species are oxidized completely to carbon dioxide. (iv) The rate of anodic oxidation is likewise dependent upon the initial adsorbate orientation; the rate for vertically-oriented species is more than twice that of flat- adsorbed species. (v) The chemisorbed species are not oxidized (to the same extent) simultaneously; instead, oxidation occurs one molecule at a time. That is, molecules that survive the anodic oxidation and remain on the surface retain their original identities.

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