Structure tandem

He J., Lindstrom H., Hagfeldt A. and Lindquist S.-E. (2000), Dye-sensitised nano-structured tandem cell—first demonstrated cell with a dye-sensitised photocathode , Solar Energy Mat. Solar Cells 62, 265-273. 

This approach has also been leveraged toward the construction of differentiated imidazolidinone and aminooxazoline structures. Tandem approaches toward allylic C—H amination and sequential arylation have been demonstrated to access functionalized oxazolidinones toward homophenylalanine derivatives directly from the linear alkenyl carbamate (Scheme 3.22)."°... 

Figure 11.15 Chemical structure, tandem cell device structure and proposed principle of the self-assembled bilayer recombination junction built from two conjugated polyelectrolytes (CPEs). Reprinted by permission from Macmillan Publishers Ltd Scientific Reports, ref. 109, copyright (2013).

The cyclization of the enediynes 110 in AcOH gives the cyclohexadiene derivative 114. The reaction starts by the insertion of the triple bond into Pd—H to give 111, followed by tandem insertion of the triple bond and two double bonds to yield the triene system 113, which is cyclized to give the cyclohexadiene system 114. Another possibility is the direct formation of 114 from 112 by endo-rype. insertion of an exo-methylene double bond[53]. The appropriately structured triyne 115 undergoes Pd-catalyzed cyclization to form an aromatic ring 116 in boiling MeCN, by repeating the intramolecular insertion three times. In this cyclization too, addition of AcOH (5 mol%) is essential to start the reaction[54]. 

Because there is little fragmentation on FD, it is necessary to activate the molecular or quasi-molecular ions if molecular structural information is needed. This can be done by any of the methods used in tandem MS as, for example, collisional activation (see Chapters 20 through 23 for more information on tandem MS and collisional activation). 

Tandem mass spectrometry (MS/MS) produces precise structural or sequence information by selective and specific induced fragmentation on samples up to several thousand Daltons. For samples of greater molecular mass than this, an enzyme digest will usually produce several peptides of molecular mass suitable for sequencing by mass spectrometry. The smaller sequences can be used to deduce the sequence of the whole protein. 

Leucine residues 2, 5, 7, 12, 20, and 24 of the motif are invariant in both type A and type B repeats of the ribonuclease inhibitor. An examination of more than 500 tandem repeats from 68 different proteins has shown that residues 20 and 24 can be other hydrophobic residues, whereas the remaining four leucine residues are present in all repeats. On the basis of the crystal structure of the ribonuclease inhibitor and the important structural role of these leucine residues, it has been possible to construct plausible structural models of several other proteins with leucine-rich motifs, such as the extracellular domains of the thyrotropin and gonadotropin receptors. 

The Pictet-Spengler condensation has been of vital importance in the synthesis of numerous P-carboline and isoquinoline compounds in addition to its use in the formation of alkaloid natural products of complex structure. A tandem retro-aldol and Pictet-Spengler sequence was utilized in a concise and enantioselective synthesis of 18-pseudoyohimbone. Amine 49 cyclized under acidic conditions to give the condensation product 50 in good yield. Deprotection of the ketone produced the indole alkaloid 51. 

Hirsutene (1) and A9(,2,-capnellcnc (2), the parent members of the hirsutane and capnellane families of triquinane natural products, respectively, are isomeric molecules that possess four contiguous stereogenic centers, one of which is quaternary. The linearly fused tricyclopentanoid frameworks of compounds 1 and 2 are obviously very similar, differing only with respect to the positions of the three methyl groups. An asset of Curran s tandem radical cyclization strategy is that it provides a unified entry into a wide variety of linear condensed cyclopentanoid natural products. As a result, it is possible to devise nearly identical retrosynthetic pathways for these structurally related molecules. 

The tandem oxacydization of a triepoxide was also explored. On treatment with BF3 Et20, the famesol-derived triepoxide 84, with a tert-butylcarbonate as the nucleophilic terminating functional group, afforded the tricyclic bis-oxepane 85 as the major product (52%, Scheme 8.21). The tetraepoxide derived from geranylger-aniol was similarly converted into the corresponding tetracyclic structure [39a]. 

Tandem mass spectrometry (MS/MS) is a method for obtaining sequence and structural information by measurement of the mass-to-charge ratios of ionized molecules before and after dissociation reactions within a mass spectrometer which consists essentially of two mass spectrometers in tandem. In the first step, precursor ions are selected for further fragmentation by energy impact and interaction with a collision gas. The generated product ions can be analyzed by a second scan step. MS/MS measurements of peptides can be performed using electrospray or matrix-assisted laser desorption/ionization in combination with triple quadruple, ion trap, quadrupole-TOF (time-of-flight), TOF-TOF or ion cyclotron resonance MS. Tandem... 

The ion spray liquid chromatography/mass spectrometry (LC-MS) interface coupled via a postsuppressor split with an ion chromatography (IC) has been used in the analysis of alcohol sulfates. The IC-MS readily produces the molecular weight while the tandem mass spectrometric detection IC-MS-MS provides structural information [305]. 

To rapidly construct complex structures, a recent synthetic strategy uses the Diels-Alder cycloaddition in sequence with another Diels-Alder reaction or with other reactions without isolating the intermediates (domino, tandem, cascade, consecutive, etc., reactions) [4-6]. Scheme 1.2 illustrates some examples. 

The ionization techniques most widely used for LC-MS, however, are termed soft ionization in that they produce primarily molecular species with little fragmentation. It is unlikely that the molecular weight alone will allow a structural assignment to be made and it is therefore desirable to be able to generate structural information from such techniques. There are two ways in which this may be done, one of which, the so-called cone-voltage or in-source fragmentation, is associated specifically with the ionization techniques of electiospray and APCl and is discussed later in Section 4.7.4. The other, termed mass spectrometry-mass spectrometry (MS-MS) or tandem mass spectrometry, is applicable to all forms of ionization, provided that appropriate hardware is available, and is described here. 

Figure 3.29 Structure of atrazine. Reprinted from J. Chromatogr., A, 915, Steen, R. J. C. A., Bobeldijk, I. and Brinkman, U. A. Th., Screening for transformation products of pesticides using tandem mass spectrometric scan modes , 129-137, Copyright (2001), with permission from Elsevier Science.

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