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Schematic structure

Lastly, we consider a class of compounds called ladder polymers, which are made up of a double-stranded backbone that is linked at regular intervals into rings so that the schematic structure is... [Pg.337]

Scheme 12. Schematic structure of vinyl-eb-PDMS chains (dashed line) crosslinked with polymeric TMS-eb-PHMS through the hydrosilylation cure reaction. For illustration purpose the PDMS chains in this scheme are shorter and less abundant relative to PHMS than in real system. Scheme 12. Schematic structure of vinyl-eb-PDMS chains (dashed line) crosslinked with polymeric TMS-eb-PHMS through the hydrosilylation cure reaction. For illustration purpose the PDMS chains in this scheme are shorter and less abundant relative to PHMS than in real system.
Formula Name Ox. states Schematic structure Salt... [Pg.705]

Figure 15 Schematic structure of poly(car(ianyl acrylate). Figure 15 Schematic structure of poly(car(ianyl acrylate).
Scheme 1 Schematic structure of graft block copolymer [51] TTTm = polymethyl methacrylate segment w AA = po-lydimethylsiloxane segment. Scheme 1 Schematic structure of graft block copolymer [51] TTTm = polymethyl methacrylate segment w AA = po-lydimethylsiloxane segment.
Fig. 75. Schematic structure of the first and second coordination spheres... Fig. 75. Schematic structure of the first and second coordination spheres...
Fig. 123. Schematic structure of a mixer-settler extraction cell. Fig. 123. Schematic structure of a mixer-settler extraction cell.
Fig. 142. Schematic structure of reactor for the reduction by molten sodium of KfTaFj diluted in molten salts. Fig. 142. Schematic structure of reactor for the reduction by molten sodium of KfTaFj diluted in molten salts.
Sex Steroid Receptors Androgen Receptor, Estrogen Receptors, Progesterone Receptor. Figure 1 Schematic structures of AR, ERa, ER(3, and PR. [Pg.1127]

FIG. 8 Synthesis of oligomeric DNA-STV conjugates 7 from 5, 5 -bis-biotinylated DNA and STV [49]. Note that the schematic structure of 7 is simplified, since a portion of the STV molecules function as tri- and tetravalent linker molecules between adjacent DNA fragments. [Pg.402]

Scheme 1 Schematic structures of iron meio-tetraarylporphyrins and preparation of Fe-porphyrin carbene complexes... Scheme 1 Schematic structures of iron meio-tetraarylporphyrins and preparation of Fe-porphyrin carbene complexes...
Figure 4. Schematic potential energy surface for the reaction of FeO" " with methane. The sohd line indicates the sextet surface the quartet surface is shown with a dotted line, in each case leading to the production of Fe + CH3OH. The dashed line leads to formation of FeOET + CH3. The pathway leading to the minor FeCH2" + H2O channel is not shown. Schematic structures are shown for the three minima the [OFe CHJ entrance channel complex, [HO—Fe—CH3] insertion intermediate, and Fe" (CH30H) exit channel complex. See text for details on the calculations on which the potential energy surface is based. Figure 4. Schematic potential energy surface for the reaction of FeO" " with methane. The sohd line indicates the sextet surface the quartet surface is shown with a dotted line, in each case leading to the production of Fe + CH3OH. The dashed line leads to formation of FeOET + CH3. The pathway leading to the minor FeCH2" + H2O channel is not shown. Schematic structures are shown for the three minima the [OFe CHJ entrance channel complex, [HO—Fe—CH3] insertion intermediate, and Fe" (CH30H) exit channel complex. See text for details on the calculations on which the potential energy surface is based.
Polysaccharide Schematic structure Initial rate constants min. Xl0 ... [Pg.84]

Figure 5. Schematic structure (left) of a ternary alloy on Ru(0 0 1) surface, MPt2/Ru, with M selected from the set Fe, Co, Rh, Ir, Ni, Pd, Pt, Cu, Ag, Au, Snj.The two bottom layers represent Ru atoms while Pt atoms form the top surface atoms. The predicted surface activities of various ternary alloys are shown in the plot (right). (Reprinted from Ref [102], 2003, with permission from American Chemical Society.)... Figure 5. Schematic structure (left) of a ternary alloy on Ru(0 0 1) surface, MPt2/Ru, with M selected from the set Fe, Co, Rh, Ir, Ni, Pd, Pt, Cu, Ag, Au, Snj.The two bottom layers represent Ru atoms while Pt atoms form the top surface atoms. The predicted surface activities of various ternary alloys are shown in the plot (right). (Reprinted from Ref [102], 2003, with permission from American Chemical Society.)...
Fig. 2.3 Schematic structure of a silicon semiconductor of (A) n type and (B) p type together with the energy level array. (According to C. Kittel)... [Pg.100]

Schematic structures of some representative enzyme and adaptor targets for signalling protein tyrosine kinases... Schematic structures of some representative enzyme and adaptor targets for signalling protein tyrosine kinases...
Figure 5. Schematic structure of a polysiloxane layer obtained by hydrolysis and poly condensation of monomeric alkylsilanes RSiX3 (X = Cl, OCH3, OC2H5). Figure 5. Schematic structure of a polysiloxane layer obtained by hydrolysis and poly condensation of monomeric alkylsilanes RSiX3 (X = Cl, OCH3, OC2H5).
Figure 2.9 Schematic structures of Fe-S redox centres, their electron-transfer reactions and approximate range of potentials. See text for details. Individual iron atom oxidation states are not specified for delocalized cluster spin states are indicated. Reprinted with permission from Holm et al., 1996. Copyright (1996) American Chemical Society. Figure 2.9 Schematic structures of Fe-S redox centres, their electron-transfer reactions and approximate range of potentials. See text for details. Individual iron atom oxidation states are not specified for delocalized cluster spin states are indicated. Reprinted with permission from Holm et al., 1996. Copyright (1996) American Chemical Society.
Figure 2.10 Schematic structures of (a) sulfite reductase of Escherichia coli in which a 4Fe-4S cluster is linked via a cysteine to the iron in a sirohaem (b) P cluster of nitrogenase (c) FeMoCo cluster of nitrogenase (d) the binuclear site in Desulforibrio gigas hydrogenase. Figure 2.10 Schematic structures of (a) sulfite reductase of Escherichia coli in which a 4Fe-4S cluster is linked via a cysteine to the iron in a sirohaem (b) P cluster of nitrogenase (c) FeMoCo cluster of nitrogenase (d) the binuclear site in Desulforibrio gigas hydrogenase.
Figure 8. (a) Schematic structure of carbon fibers and (b) an SEMof a Melblon 3100 fiber showing the fiber and internal structure of a fracture. [Pg.182]

Fig.13.2 Powder X-raydiffraction patterns (A) and corresponding schematic structural illustrations (B). (a) Mg2AI(0H)6(N03)-LDH (b) Mg2AI(OH)6(MTX)-LDH and (c) Mg2AI(OH)6(As-myc)-LDH. Fig.13.2 Powder X-raydiffraction patterns (A) and corresponding schematic structural illustrations (B). (a) Mg2AI(0H)6(N03)-LDH (b) Mg2AI(OH)6(MTX)-LDH and (c) Mg2AI(OH)6(As-myc)-LDH.
Figure 2. Schematic structure of Japanese traditional wooden house. Small dots schematically indicate radon concentrations. Arrows indicate influxes and effluxes of radon to and from the house. Figure 2. Schematic structure of Japanese traditional wooden house. Small dots schematically indicate radon concentrations. Arrows indicate influxes and effluxes of radon to and from the house.
Figure 2.9 Schematic structure of two dif- (d) cube. The dpp parameter defines the aver-ferent polyoxometalate complexes with inter- age distance between the two oxygen-based esting coordination symmetry (a) LnW10 and square planes. The djn is the average 0-0 (b) [LnPd"12(AsvPh)8032]5-, and their coor- distance within the oxygen-based square dination polyhedra (c) square antiprism and planes. Figure 2.9 Schematic structure of two dif- (d) cube. The dpp parameter defines the aver-ferent polyoxometalate complexes with inter- age distance between the two oxygen-based esting coordination symmetry (a) LnW10 and square planes. The djn is the average 0-0 (b) [LnPd"12(AsvPh)8032]5-, and their coor- distance within the oxygen-based square dination polyhedra (c) square antiprism and planes.
Fig. 5 Schematic structures of neutral parent in-plane Pcs with axial ligands... Fig. 5 Schematic structures of neutral parent in-plane Pcs with axial ligands...
Fig. 23. Schematic structure of [Au3(PPh2(C6H4)2PPh2)3 Au6Cu6 (C2Ph)i2 ]3+ (33, C2PI1 units omitted for clarity) (140). Fig. 23. Schematic structure of [Au3(PPh2(C6H4)2PPh2)3 Au6Cu6 (C2Ph)i2 ]3+ (33, C2PI1 units omitted for clarity) (140).
Fig. 5 Schematic structure of a molecular catalyst for olefin polymerization... Fig. 5 Schematic structure of a molecular catalyst for olefin polymerization...
Figure 10.9. (a) Schematic structure of a silicon quantum dot crystal and (b) its calculated electronic structure as a function of interparticle distance H. The size of the nanoparticles is L = 6.5 nm. At small H, a splitting of the quantized energy levels of single dots results in the formation of three-dimensional minibands. Reproduced from Ref. 64, Copyright 2001, with permission from the American Institute of Physics. [Pg.324]

FIGURE 24-6 Schematic structures of receptor protein tyrosine kinase (RPTK) families. RPTKs can be divided into different families according to the structural features in the extracellular domain. Following the extracellular domain are the transmembrane and intracellular domains the latter contains the catalytic domain. (From reference [5], with permission of Nature. Nature 2001.)... [Pg.421]


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See also in sourсe #XX -- [ Pg.2 ]

See also in sourсe #XX -- [ Pg.261 , Pg.262 ]




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Inorganic schematic structure

Layer structure, schematic

On the schematic representations of crystal structures

Polyethylene schematic structures

Polymers schematic structure

Schematic of structure

Schematic pictures of proteins highlight secondary structure

Schematic representation of structures

Schematic structure of a thermoplastic

Schematic structures of nanocomposites

Schematic structures of thermoplastics and crosslinked rubbers

Structure schematic diagram

Structure schematic representations

Thiol schematic structure

Transition structure schematic

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