Chemical schematic representation

Figure Bl.2.6. Schematic representation of a Michelson interferometer. From Griffiths P R and de Flaseth J A 1986 Fourier transfonn infrared spectroscopy Chemical Analysis ed P J Hiving and J D Winefordner (New York Wiley). Reprinted by pemiission of Jolm Wiley and Sons Inc.

A more effective carrier confinement is offered by a double heterostmcture in which a thin layer of a low band gap material (the active layer) is sandwiched between larger band gap layers. The physical junction between two materials of different band gaps, and chemical compositions, is called a heterointerface. A schematic representation of the band diagram of such a stmcture is shown in Figure 4. Electrons injected under forward bias across the p—N junction into the lower band gap material encounter a potential barrier, AE at thep—P junction which inhibits their motion away from the junction. The holes see a potential barrier of AE at the N—p heterointerface which prevents their injection into the N region. The result is that the injected minority... 

Fig. 7. Schematic representation of enzyme covalently bound to a functionalized conductive polymer where ( ) represents the functional group on the polymer and (B) the active site on the enzyme (42). Courtesy of the American Chemical Society.

Eig. 2. Schematic representation of the possible fate of a chemical absorbed from a primary contact site. 

Fig. 4-2 Schematic representation of the electrical and chemical processes in an aeration cell.

Fig. 12. Schematic representation of solid-like (crystalline), amorphous solid, and liquid-like surface layers (reproduced from [87], copyright American Chemical Society).

Figure 9-5. Schematic representation of mixing space. (Source Nauman, E. G., Chemical Reactor Design, John Wiley Sons, 1987.)...

Figure 4. i A schematic representation of mass-integration framework with MSA-induced inter-ceptuHi (a WIN becomes a MEN) (from El-Halwagi et al., 1996. Reproduced with permission of the American Institute of Chemical Engineers. Copyright 1996 AIQiE. All rights reserved). 

FIGURE 5.40 Schematic representation of the concentration of a chemical in the plasma as a function of time after an intravenous injection if the body acts as a one-compartment system and elimination of the chemical obeys first-order kinetics with a rate constant... 

We conclude that corrosion is a chemical reaction (equation 10.1) occurring by an electrochemical mechanism (equations 10.2) and (10.3), i.e. by a process involving electrical and chemical species. Figure 10.1 is a schematic representation of aqueous corrrosion occurring at a metal surface. 

Fig. 19.15 Schematic representation of range of corrosion potentials expected from various chemical tests for sensitisation in relation to the anodic dissolution kinetics of the matrix (Fe-l8Cr-IONi stainless steel) and grain boundary alloy (assumed to be Fe-lOCr-lONi) owing to depletion of Cr by precipitation of Cr carbides of a sensitised steel in a hot reducing acid (after Cowan and Tedmon )...

Figure 35. Schematic representation of the reversible variation of volume associated with the electrochemical switching of polypyrrole. Changes in free volume are mainly due to two effects electrostatic repulsions between fixed positive charges and exchange of cations, anions, and solvent molecules between the polymer and the solution. (Reprinted from T. F. Otero, H.-J. Grande, and J. Rodriguez, J. Phys. Chem. 101, 3688, 1997, Figs. 1, 3,6, 7, 13. Copyright 1997. Reprinted with the permission of the American Chemical Society.)...

Figure 5.7. Schematic representation of the definitions of work function O, chemical potential of electrons i, electrochemical potential of electrons or Fermi level p = EF, surface potential %, Galvani (or inner) potential

Figure 7.14. Schematic representation of the spatial variation of electrode potential, chemical potential of oxygen and electrochemical potential of O2 for the cell 02, M1YSZ1M, 02 (=1 atm).

Fig. 14-4 Schematic representation of the transport of P through the terrestrial system. The dominant processes indicated are (1) mechanical and chemical weathering of rocks, (2) incorporation of P into terrestrial biomass and its return to the soil system through decomposition, (3) exchange reactions between soil interstitial waters and soil particles, (4) cycling in freshwater lakes, and (5) transport through the estuaries to the oceans of both particulate and dissolved P.

FIGURE 18.3 Schematic representation of carbon particles surrounded by densely cross-linked molecules (chemical). 

Fig. 15. Schematic representation of the synthesis of hyperbranched, branched, and linear polymers grafted from functionalized silicon wafers SFM images and XPS spectra of the surface-grafted polymers. (Reproduced with permission from [48],Copyright 2001 American Chemical Society.)...

Fig. 4.16 Schematic representation of the E/C method for synthesizing polycrystalline M0S2 nanowires and nanoiibbons on graphite surfaces. (Reproduced in gray scale with permission from [171]. Copyright 2009, American Chemical Society)...

Fig. 3 Schematic representation of triplex form with chemical structures of base triplets of DNA and RNA triplexes. Reprinted from [80] with permission from Wiley InterScience...

Fig. 4 Schematic representation of parallel A and antiparallel B quadruplex form of DNA with the chemical structure of a G-tetrad C...

Fig. 16 Schematic representation of the intercalative and minor groove directed components of a protoberberine molecule as invoked by the mixed mode DNA binding model proposed by Pilch et al. [167]. Reprinted from [167] with permission from the American Chemical Society...

The chemical compositions of the isolated Au SR clusters were investigated by mass spectrometry [15,16,18, 22,32-35]. TEM was used to confirm that the species detected by the mass spectrometer represents the clusters in the sample. Figure 3a is a schematic representation of the top view of the mass spectrometer, which consists of five stages of differentially pumped vacuum chambers. The apparatus accommodates two t5 pes of ion sources, electrospray ionization (ESI) and laser-desorption ionization (EDI), and a time-of-flight (TOE) mass spectrometer with a reflectron. Details of the apparatus and the measurement protocols are described below. 

Scheme 1. Schematic representation of seed-mediated growth of the particles. (Reprinted from Ref [35], 2001, with permission from American Chemical Society.)...

Figure 8.8 Series of iniiared spectra during (a) CO2 production and (b) progressive oxidation of COaj[ on Pt3Sn(l 11) in 0.5 M H2SO4 saturated with CO each spectrum was accumulated ftom 50 interferometers at the potential indicated, (c, d) LEED pattern and schematic representation of the p(4 X 4) structure observed on PtsSnflll) after exposing the surface to O2 and electrolyte. The gray dicles are Pt surface atoms, the black circles are Sn atoms covered with OH, and the dotted circles are Sn atoms that are chemically different from Sn atoms modified with OH. (Reprinted with permission from Stamenkovic et al. [2003]. Copyright 1999. The American Chemical Society.)...

Figure 9.23 Schematic representation of the various electrochemical and chemical reactions occurring in a membrane electrode assembly and the concentration gradients of O2, H2, and Pt ions. The location where the local O2 molar flux equals one-half of the local H2 molar flux is marked by 5pt. (Reproduced with permission from Zhang J et al. [2007a].)...

Figure 17.17 Schematic representation of a single-compartment glucose/02 enzyme fuel cell built from carbon fiber electrodes modified with Os -containing polymers that incorporate glucose oxidase at the anode and bilirubin oxidase at the cathode. The inset shows power density versus cell potential curves for this fuel cell operating in a quiescent solution in air at pH 7.2, 0.14 M NaCl, 20 mM phosphate, and 15 mM glucose. Parts of this figure are reprinted with permission from Mano et al. [2003]. Copyright (2003) American Chemical Society.

FIG. 25 (a) Schematic representation for a photocatalytic mechanism based on shuttle photosensitizers at liquid-liquid interfaces. (Reprinted with permission from Ref. 182. Cop5right 1999 American Chemical Society.) (b) This mechanism is compared to the photo-oxidation of 1-octanol by the heterodimer ZnTPPS-ZnTMPyP in the presence of the redox mediator ZnTPP. (From Ref. 185.)... 

FIG. 9 Schematic representation of the delivery sites of PrBe (left) and BzOH (right) in the EPC SUV determined by the NMR chemical shift difference. (From Ref. 46. Copyright 1999 American Chemical Society.)... 

Figure 7. Schematic representation of collision cells for reactive MPC dynamics. Each cell contains various numbers of the different species. The species numbers change in the cells as a result of chemical reactions.

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