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Direct Coplanarity

Indium clusters have also recently been characterized, notably in intermetallic compounds. Thus, the Zintl phase, Rbzinj, (prepared by direct reaction between the two metals at I530°C) has layers of octahedral closo-lnf, clusters joined into sheets through exo bonds at four coplanar vertices. These four In atoms are therefore each bonded to five neighbouring In atoms at the comers of a square-based pyramid, whereas the remaining two (Irans) In atoms in the Ine cluster... [Pg.257]

Ti -Cyclopentadienyl(triphenylphosphine)cobalt reacts with phosphites and forms complexes of 1-alkoxyphosphole oxides 251 (R = Me, Et, Ph) through a step involving (ri -cyclopentadienyl)(phosphite)cobalt (80JA4363). (ri -Cp)Co(PF3)2 reacts with hexafluorobut-2-yne and 252 is formed, which hydrolyzes into 253 (X = OH) [73JCS(CC)583 75JCS(D)197]. The five-member ring has the envelope conformation, in which the carbon atoms are coplanar, and the phosphorus atom deviates from this plane in the direction opposite to the cobalt atom. The heterocycle is a four-electron donor relative to the metal center. [Pg.161]

When equation (9) is applied to the transition state of the biphenyl system, it gives directly the isotopic difference in the activation enthalpy per interacting pair of atoms, provided we make the reasonable assumption that initial-state steric effects are independent of isotopic substitution in the 6- and 6 -positions. Since there are two pairs of interacting atoms in the coplanar transition state, the final expression is... [Pg.9]

Figure 6-1. Heme. The pyrrole rings and methylene bridge carbons are coplanar, and the iron atom (F62 ) resides in almost the same plane. The fifth and sixth coordination positions of Fej are directed perpendicular to—and directly above and below—the plane of the heme ring. Observe the nature of the substituent groups on the (3 carbons of the pyrrole rings, the central iron atom, and the location of the polar side of the heme ring (at about 7 o clock) that faces the surface of the myoglobin molecule. Figure 6-1. Heme. The pyrrole rings and methylene bridge carbons are coplanar, and the iron atom (F62 ) resides in almost the same plane. The fifth and sixth coordination positions of Fej are directed perpendicular to—and directly above and below—the plane of the heme ring. Observe the nature of the substituent groups on the (3 carbons of the pyrrole rings, the central iron atom, and the location of the polar side of the heme ring (at about 7 o clock) that faces the surface of the myoglobin molecule.
The classic disilene 1 is unusual in that it exists in at least three crystalline modifications orange and yellow unsolvated forms and a yellow toluene solvate (Fig. 2). The orange polymorph has a helical conformation in which all of the mesityl substituents are twisted in the same direction thus molecules of 1 in this form are chiral.51 The toluene solvate has an unusual conformation in which two mesityl rings cis to each other are nearly coplanar with the Si=Si bond, while the other two cis mesityl groups are nearly orthogonal.41 The structure of the yellow unsolvated form is not yet known. Because of the flat potential surface for the Si=Si... [Pg.245]

The LU MO of ethyl chloride (trans form) extends in the region of the a carbon to the direction opposite the side of the chlorine atom and also in the region of the hydrogen atom trans coplanar to the chlorine atom 124>. The former is responsible for the attack of nucleophile in Sn2 reactions, and the latter for the attack in E 2 reactions. [Pg.61]

More than 99% of the total mass of the whole system was present in the protosun. The formation of this disc is demonstrated by the coplanar movement of the planets and by the fact that they all rotate in the same direction around the sun. The increasingly concentrated matter in the primeval sun influenced the rotating disc of matter so that its diameter decreased and the rate of rotation of the whole system increased. [Pg.25]

The lack of clear-cut hallucinogen-type activity for the 2-aminotetralins could be explained in several ways. The known deleterious effect of molecular bulk in the alpha-position would seem to direct attention to the steric effect of the reduced ring of the tetralins as detrimental to activity. In 18b, however, it has been noted (156) that the 5-methoxy group is forced out of plane by the adjacent 6-methyl and 4-methylene groups. The importance to activity of maintaining the methoxy groups coplanar with the aromatic ring has been emphasized earlier. Both substituent orientation and N-alkylation must also be important to activity, and it may not be realistic to make direct comparisons between the phenethyl-amines and the 2-aminotetralins. [Pg.63]

A striking feature of disperse dye development in recent decades has been the steady growth in bathochromic azo blue dyes to replace the tinctorially weaker and more costly anthraquinone blues. One approach is represented by heavily nuclei-substituted derivatives of N,N-disubstituted 4-aminoazobenzenes, in which electron donor groups (e.g. 2-acylamino-5-alkoxy) are introduced into the aniline coupler residue and acceptor groups (acetyl, cyano or nitro) into the 2,4,6-positions of the diazo component. A PPP-MO study of the mobility of substituent configurations in such systems demonstrated that coplanarity of the two aryl rings could only be maintained if at least one of the 2,6-substituents was cyano. Thus much commercial research effort was directed towards these more bathochromic o-cyano-substituted dyes. [Pg.16]

These are defined as anionic dyes with substantivity for cellulosic fibres applied from an aqueous dyebath containing an electrolyte. The forces that operate between a direct dye and cellulose include hydrogen bonding, dipolar forces and non-specific hydrophobic interaction, depending on the chemical structure and polarity of the dye. Apparently multiple attachments are important, since linearity and coplanarity of molecular structure seem to be desirable features (section 3.2.1). The sorption process is reversible and numerous attempts have been made to minimise desorption by suitable aftertreatments (section 10.9.5). The two most significant non-textile outlets for direct dyes are the batchwise dyeing of leather and the continuous coloration of paper. [Pg.22]

The simplest monoazo dyes fail to meet these requirements, but by choosing intermediates known to confer substantivity and by building up the molecule to provide the necessary length and coplanarity (section 3.2.1), direct dyes can be produced from this class. Thus the highly substantive character of the benzothiazole nucleus is exploited in Cl Direct Yellow 8 (4-58), as is the alignment of the azo, ureido and acylamino groups in the substituted J acid coupling component of Cl Direct Red 65 (4-59). [Pg.208]

See other pages where Direct Coplanarity is mentioned: [Pg.201]    [Pg.201]    [Pg.1775]    [Pg.301]    [Pg.334]    [Pg.453]    [Pg.724]    [Pg.982]    [Pg.149]    [Pg.251]    [Pg.20]    [Pg.110]    [Pg.181]    [Pg.988]    [Pg.169]    [Pg.59]    [Pg.136]    [Pg.138]    [Pg.315]    [Pg.25]    [Pg.627]    [Pg.51]    [Pg.479]    [Pg.1266]    [Pg.77]    [Pg.147]    [Pg.76]    [Pg.230]    [Pg.182]    [Pg.561]    [Pg.95]    [Pg.96]    [Pg.120]    [Pg.120]    [Pg.113]    [Pg.228]    [Pg.201]    [Pg.345]    [Pg.254]   
See also in sourсe #XX -- [ Pg.159 ]



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