Indrapal Singh Aidhen

Bio: Indrapal Singh Aidhen is an academic researcher from Indian Institute of Technology Madras. The author has contributed to research in topic(s): Aryl & Julia olefination. The author has an hindex of 15, co-authored 104 publication(s) receiving 836 citation(s). Previous affiliations of Indrapal Singh Aidhen include Savitribai Phule Pune University & University of California, Santa Cruz.

The Growing Synthetic Utility of Weinreb′s Amide

Abstract: The preparation and the synthetic utility of the N-methoxy-N-methyl amides, also called as Weinreb amides, for the preparation of aldehydes and ketones has been discussed. Also the various reagents based on Weinreb′s amide has been compiled.

The Growing Synthetic Utilityof the Weinreb Amide

Abstract: N-Methoxy- N-methylamide,popularly addressed as the Weinreb amide, has surfaced as an amidewith a difference. This amide has served as an excellent acylatingagent for organolithium or organomagnesium reagents and as a robustequivalent for an aldehyde group. These two aspects have been exploitedexhaustively in various synthetic endeavors. This review presentsthe growing synthetic utility of the Weinreb amide not only in academiccircles, but also its popular use on kilogram scale by various pharmaceutical industriesacross the globe. 1 Introduction 1.1 Limitations 2 Methods for Preparation 3 Applications 3.1 Use in Heterocyclic Chemistry 3.2 Use in Total Synthesis 3.3 Use in Industry on Kilogram Scale 3.4 Synthetic Equivalents and Building Blocks 4 Miscellaneous 5 Conclusion

A novel synthesis of benzocyclobutenones

Abstract: Lithium-iodine exchange initiated cyclization of o-iodo-N-methoxy-N-methyl phenylacetamides provides a simple and efficient route to benzocyclobutenones.

Synthesis of (+)‐Varitriol Analogues via Novel and Versatile Building Blocks Based on Julia Olefination

Abstract: The synthesis of (+)-varitriol (1) analogues was achieved through the use of Julia olefination. The potential anticancer properties of 1 coupled with our interest in developing building blocks that enable olefin formation under the Julia protocol constitute the basis of our research project. Efforts are aimed at the synthesis of building blocks 2 and 3 and to explore their use towards the synthesis of (+)-varitriol analogues. Herein, we would like to present the synthesis of building block 3 and its ability to react with variety of substituted aromatic-, heterocyclic- and carbohydrate-derived aldehydes to yield alkene 6 in moderate to good yields with E as the major isomer. The successful coupling of 2 with (furanoside moieties) aldehydes 5k, 5m and 5n in particular and the obtainment of compound 23 reflect the promise associated with the new strategy.

Palladium-Catalyzed Coupling of Stannyl Allenes With Aryl Iodides

Abstract: Substituted allenes are prepared by coupling stannyl allenes with aryl iodides under palladium(O) catalysis. A concise and versatile sequence starting from propargyl alcohols provides a route for the preparation of substituted allenes under extremely mild conditions.

Two-photon polymerization initiators for three-dimensional optical data storage and microfabrication

Abstract: Two-photon excitation provides a means of activating chemical or physical processes with high spatial resolution in three dimensions and has made possible the development of three-dimensional fluorescence imaging, optical data storage, and lithographic microfabrication. These applications take advantage of the fact that the two-photon absorption probability depends quadratically on intensity, so under tight-focusing conditions, the absorption is confined at the focus to a volume of order λ3 (where λ is the laser wavelength). Any subsequent process, such as fluorescence or a photoinduced chemical reaction, is also localized in this small volume. Although three-dimensional data storage and microfabrication have been illustrated using two-photon-initiated polymerization of resins incorporating conventional ultraviolet-absorbing initiators, such photopolymer systems exhibit low photosensitivity as the initiators have small two-photon absorption cross-sections (δ). Consequently, this approach requires high laser power, and its widespread use remains impractical. Here we report on a class of π;-conjugated compounds that exhibit large δ (as high as 1, 250 × 10−50 cm4 s per photon) and enhanced two-photon sensitivity relative to ultraviolet initiators. Two-photon excitable resins based on these new initiators have been developed and used to demonstrate a scheme for three-dimensional data storage which permits fluorescent and refractive read-out, and the fabrication of three-dimensional micro-optical and micromechanical structures, including photonic-bandgap-type structures.

Redox economy in organic synthesis.

Abstract: "Economy" is referred to as the thrifty and efficient use of material resources, as the principle of "minimum effort to reach a goal." More illuminating is: "the aim to portion one's forces in order to use as little as possible of them to reach a goal." Such statements certainly apply when the goal is to synthesize a complex target molecule. Redox economy then implies the use of as few redox steps as possible in the synthetic conquest of a target compound. While any sort of economy will help to streamline the effort of total synthesis, redox economy addresses a particularly weak area in present-day total synthesis. It is not enough to point out the present deficiencies, rather the purpose of this Review is to serve as a teaching tool for all practitioners of the field by giving and illustrating guidelines to increase redox economy in multistep organic synthesis.

Enantioselective Construction of Quaternary Stereocenters

Abstract: The stereoselective formation of C-C bonds is of great importance for the synthesis of enantiomerically pure natural products and pharmaceuticals. A broad repertoire of chiral auxiliaries, reagents, and catalysts can be utilized for the reliable generation of tertiary stereocenters. In contrast, the synthesis of organic compounds with quaternary stereocenters is a much more demanding and challenging task. Every enantioselective synthetic method can demonstrate its value through the generation of a fully substituted carbon center. In this Minireview examples of newer stoichiometric and catalytic methods are summarized which have proved their suitability for the enantioselective construction of quaternary stereocenters.

Asymmetric copper-catalyzed C-N cross-couplings induced by visible light.

Abstract: Despite a well-developed and growing body of work in copper catalysis, the potential of copper to serve as a photocatalyst remains underexplored. Here we describe a photoinduced copper-catalyzed method for coupling readily available racemic tertiary alkyl chloride electrophiles with amines to generate fully substituted stereocenters with high enantioselectivity. The reaction proceeds at –40°C under excitation by a blue light-emitting diode and benefits from the use of a single, Earth-abundant transition metal acting as both the photocatalyst and the source of asymmetric induction. An enantioconvergent mechanism transforms the racemic starting material into a single product enantiomer.