Diffusion profiles in L. lactis biofilms under different conditions

ABSTRACTTransport mechanisms in structurally ordered piezoelectric Ca3TaGa3Si2O14 (CTGS) single crystals are studied in the temperature range of 1000-1300 °C by application of the isotope 18O as a tracer and subsequent analysis of diffusion profiles of this isotope using secondary ion mass spectrometry (SIMS). Determined oxygen self-diffusion coefficients enable calculation of oxygen ion contribution to the total conductivity, which is shown to be small. Since very low contributions of the cations have to be expected, the total conductivity must be dominated by electron transport. Ion and electron conductivities are governed by different mechanisms with activation energies (1.9±0.1) eV and (1.2±0.07) eV, respectively. Further, the electromechanical losses are studied as a function of temperature by means of impedance spectroscopy on samples with electrodes and a contactless tone-burst excitation technique. At temperatures above 650 °C the conductivity-related losses are dominant. Finally, the operation of CTGS resonators is demonstrated at cryogenic temperatures and materials piezoelectric strain constants are determined from 4.2 K to room temperature.

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Steady-state point-defect diffusion profiles in solids during irradiation

Radiation Effects ◽

10.1080/00337577408232045 ◽

1974 ◽

Vol 23 (1) ◽

pp. 53-59 ◽

Cited By ~ 75

Author(s):

Nghi Q. Lam ◽

Steven J. Rothman ◽

Rudolf Sizmanns

Keyword(s):

Steady State ◽

Point Defect ◽

Defect Diffusion ◽

State Point ◽

Diffusion Profiles

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Diffusivity, Solubility and Speciation of Sulphur in Silicate Melts

Advances in Science and Technology ◽

10.4028/www.scientific.net/ast.46.93 ◽

2006 ◽

Vol 46 ◽

pp. 93-97 ◽

Cited By ~ 1

Author(s):

J. Stelling ◽

Harald Behrens ◽

Joachim Deubener ◽

Stefan Mangold ◽

Joerg Goettlicher

Keyword(s):

High Temperature ◽

Electron Microprobe ◽

Industrial Production ◽

Silicate Melts ◽

Viscosity Data ◽

Decomposition Products ◽

X Ray ◽

Diffusion Couple Technique ◽

X Ray Absorption ◽

Diffusion Profiles

Diffusion and solubility of sulphur have important effects on the degassing of silicate melts. Both properties are closely related to the structural incorporation of sulphur in the melt. Depending on the oxygen fugacity, sulphur can be present as sulphide (S2-), sulphite (S4+) or sulphate (S6+). Sulphates play an important role in the industrial production of glasses especially in the fining process. The decomposition products of sulphate amass in bubbles which ascend and homogenize the melt. Structural incorporation of sulphur in glasses is studied by XANES (X-ray Absorption Near Edge Spectroscopy). Diffusion of sulphur is investigated in simple silicate systems using the diffusion couple technique. First diffusion profiles were measured in sodium trisilicate glasses by electron microprobe. The results indicate that sulphur diffusivity in high temperature melts is close to the Eyring diffusivity calculated from viscosity data.

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ChemInform Abstract: ACCURATE THEORETICAL ARSENIC DIFFUSION PROFILES IN SILICON FROM PROCESSING DATA

Chemischer Informationsdienst ◽

10.1002/chin.197527016 ◽

1975 ◽

Vol 6 (27) ◽

pp. no-no

Author(s):

R. K. JAIN ◽

R. J. VAN OVERSTRAETEN

Keyword(s):

Processing Data ◽

Diffusion Profiles

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Shift of Ag diffusion profiles in CdTe by metal/semiconductor interfaces

Applied Physics Letters ◽

10.1063/1.4709393 ◽

2012 ◽

Vol 100 (17) ◽

pp. 171915 ◽

Cited By ~ 7

Author(s):

H. Wolf ◽

J. Kronenberg ◽

F. Wagner ◽

M. Deicher ◽

Th. Wichert ◽

...

Keyword(s):

Semiconductor Interfaces ◽

Diffusion Profiles

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Investigation of Ge, As, and Au Diffusion in Non-Alloyed Epitaxial Au-Ge Ohmic Contacts to n-GaAs Using Secondary Ion Mass Spectroscopy Backside Sputter Depth-Profiling

MRS Proceedings ◽

10.1557/proc-240-473 ◽

1991 ◽

Vol 240 ◽

Cited By ~ 1

Author(s):

H. S. LEE ◽

R. T. Lareau ◽

S. N. Schauer ◽

R. P. Moerkirk ◽

K. A. Jones ◽

...

Keyword(s):

Ohmic Contacts ◽

Ion Beam ◽

Depth Profiling ◽

Depth Resolution ◽

High Concentration ◽

Ohmic Behavior ◽

Preferential Sputtering ◽

Specific Contact ◽

Secondary Ion ◽

Diffusion Profiles

ABSTRACTA SIMS backside sputter depth-profile technique using marker layers is employed to characterize the diffusion profiles of the Ge, As, and Au in the Au-Ge contacts after annealing at 320 C for various times. This technique overcomes difficulties such as ion beam mixing and preferential sputtering and results in high depth resolution measurements since diffusion profiles are measured from low to high concentration. Localized reactions in the form of islands were observed across the surface of the contact after annealing and were composed of Au, Ge, and As, as determined by SIMS imaging and Auger depth profiling. Backside SIMS profiles indicate both Ge and Au diffusion into the GaAs substrate in the isalnd regions. Ohmic behavior was obtained after a 3 hour anneal with a the lowest average specific contact resistivity found to be ∼ 7 × 100−6 Ω- cm2.

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The Effect of Carbon/Self-Interstitial Clusters on Carbon Diffusion in Silicon Modeled by Kinetic Monte Carlo Simulations

MRS Proceedings ◽

10.1557/proc-610-b7.2 ◽

2000 ◽

Vol 610 ◽

Cited By ~ 2

Author(s):

R. Pinachoa ◽

M. Jaraíz ◽

H. J. Gossmann ◽

G. H. Gilmer ◽

J. L. Benton ◽

...

Keyword(s):

Monte Carlo ◽

Kinetic Monte Carlo ◽

Carbon Diffusion ◽

Interstitial Concentration ◽

Carbon Structures ◽

Kinetic Monte Carlo Simulations ◽

Equilibrium Concentrations ◽

Low Solubility ◽

Carbon Concentrations ◽

Diffusion Profiles

AbstractA new model for carbon diffusion in silicon that explains carbon diffusion during annealing at 850°C and 900°C in superlattice carbon structures grown by MBE is implemented using the Monte Carlo atomistic simulator DADOS. Carbon concentrations in the delta layers are 2×1020 cm−3, exceeding by far the solid solubility. The simple kick-out mechanism which incorporates the well established values of the product of diffusivity and equilibrium concentrations of intrinsic point defects and in-diffusion experiments of carbon in silicon does not explain the observed C diffusion profiles. A more detailed analysis of the experiments shows that, in order to fit them, a more unstable Ci is required. Therefore, we include the formation of clusters in the simulations. The formation of carbon/Si self-interstitial clusters promotes the premature break-up of Ci and the increase of the Si self-interstitial concentration in the carbon rich regions and, consequently, provides a better fit to the experiments. The low solubility of carbon in silicon at the annealing temperatures explains why these clusters are formed, even under conditions where the self-interstitial concentration is below the equilibrium value.

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