Your search keyword '"M. Trienens"' showing total 2 results

1. Photochemical phosphorus-enabled scaffold remodeling of carboxylic acids.

Author

Peng Q, Hwang MU, Rentería-Gómez Á, Mukherjee P, Young RM, Qiu Y, Wasielewski MR, Gutierrez O, and Scheidt KA

Abstract

The excitation of carbonyl compounds by light to generate radical intermediates has historically been restricted to ketones and aldehydes; carboxylic acids have been overlooked because of high energy requirements and low quantum efficiency. A successful activation strategy would necessitate a bathochromic shift in the absorbance profile, an increase in triplet diradical lifetime, and ease of further functionalization. We present a single-flask transformation of carboxylic acids to acyl phosphonates that can access synthetically useful triplet diradicals under visible light or near-ultraviolet irradiation. The use of phosphorus circumvents unproductive Norrish type I processes, promoting selectivity that enables hydrogen-atom transfer reactivity. Use of this strategy promotes the efficient scaffold remodeling of carboxylic acids through various annulation, contraction, and expansion manifolds.

Published

2024

2. Direct observation of chirality-induced spin selectivity in electron donor-acceptor molecules.

Author

Eckvahl HJ, Tcyrulnikov NA, Chiesa A, Bradley JM, Young RM, Carretta S, Krzyaniak MD, and Wasielewski MR

Abstract

The role of chirality in determining the spin dynamics of photoinduced electron transfer in donor-acceptor molecules remains an open question. Although chirality-induced spin selectivity (CISS) has been demonstrated in molecules bound to substrates, experimental information about whether this process influences spin dynamics in the molecules themselves is lacking. Here we used time-resolved electron paramagnetic resonance spectroscopy to show that CISS strongly influences the spin dynamics of isolated covalent donor-chiral bridge-acceptor (D-Bχ-A) molecules in which selective photoexcitation of D is followed by two rapid, sequential electron-transfer events to yield D •+ -Bχ-A •- . Exploiting this phenomenon affords the possibility of using chiral molecular building blocks to control electron spin states in quantum information applications.

Published

2023