Dr Bryony Elbert

Evidence of antineutrinos from distant reactors using pure water at SNO

Physical Review Letters American Physical Society 130:9 (2023) 91801

Authors:

A Allega, Mr Anderson, S Andringa, J Antunes, M Askins, Dj Auty, A Bacon, N Barros, F Barão, R Bayes, Ew Beier, Ts Bezerra, A Bialek, Sd Biller, E Blucher, E Caden, Ej Callaghan, S Cheng, M Chen, B Cleveland, D Cookman, J Corning, Ma Cox, R Dehghani, J Deloye, C Deluce, Mm Depatie, J Dittmer, Kh Dixon, F Di Lodovico, Bryony Elbert, E Falk, N Fatemighomi, R Ford, K Frankiewicz, A Gaur, Oi González-Reina, D Gooding, C Grant, J Grove, Al Hallin, D Hallman, Wj Heintzelman, Rl Helmer, J Hu, R Hunt-Stokes, Sma Hussain, As Inácio, Cj Jillings, S Kaluzienski

Abstract:

The SNO+ Collaboration reports the first evidence of reactor antineutrinos in a Cherenkov detector. The nearest nuclear reactors are located 240 km away in Ontario, Canada. This analysis uses events with energies lower than in any previous analysis with a large water Cherenkov detector. Two analytical methods are used to distinguish reactor antineutrinos from background events in 190 days of data and yield consistent evidence for antineutrinos with a combined significance of 3.5σ.

A modular, enantioselective synthesis of resolvins D3, E1, and hybrids

Organic letters American Chemical Society 22:4 (2020) 1510-1515

Authors:

Felix Urbitsch, Bryony L Elbert, Josep Llaveria, Penelope E Streatfeild, Edward A Anderson

Abstract:

Resolvins D3 and E1 are important signaling molecules in the resolution of inflammation. Here, we report a convergent and flexible strategy to prepare these natural products using Hiyama-Denmark coupling of five- and six-membered cyclic alkenylsiloxanes to connect three resolvin fragments, and control the stereochemistry of the natural product (Z)-alkenes. The modular nature of this approach enables the synthesis of novel resolvin hybrids, opening up opportunities for more-extensive investigations of resolvin biology.

Search for the rare decay eta ' -> pi(0)pi(0)pi(0)pi(0) at BESIII

Physical Review D American Physical Society 101:3 (2020) 32001

Authors:

M Ablikim, Mn Achasov, P Adlarson, S Ahmed, M Albrecht, M Alekseev, A Amoroso, Q An, Y Bai Anita, O Bakina, R Baldini Ferroli, I Balossino, Y Ban, K Begzsuren, Jv Bennett, N Berger, M Bertani, D Bettoni, F Bianchi, J Biernat, J Bloms, I Boyko, Ra Briere, H Cai, X Cai, A Calcaterra, Gf Cao, N Cao, Sa Cetin, J Chai, Jf Chang, Wl Chang, G Chelkov, Dy Chen, G Chen, Hs Chen, J Chen, Ml Chen, Sj Chen, Xr Chen, Yb Chen, W Cheng, G Cibinetto, F Cossio, Xf Cui, Hl Dai, Jp Dai, Xc Dai, A Dbeyssi, Bryony Elbert

Abstract:

Using a sample of 1.31×109 J/ψ events collected with the BESIII detector, we perform a search for the rare decay η′→4π0 via J/ψ→γη′. No significant η′ signal is observed in the 4π0 invariant mass spectrum. With a Bayesian approach, the upper limit on the branching fraction is determined to be B(η′→4π0)<4.94×10-5 at the 90% confidence level, which is a factor of 6 smaller than the previous experimental limit.

Synthesis of cyclic alkenyl dimethylsiloxanes from alkynyl benzyldimethylsilanes and application in polyene synthesis

Journal of Organic Chemistry American Chemical Society 84:22 (2019) 14868-14882

Authors:

HG Gudmundsson, CJ Kuper, D Cornut, F Urbitsch, Bryony L Elbert, Edward A Anderson

Abstract:

Cyclic dimethylalkenylsiloxanes, useful motifs for (Z)-selective Hiyama cross-coupling, are accessed from alkynyl benzyldimethylsilanes featuring adjacent allylic or homoallylic oxygen substituents by semihydrogenation/debenzylation/cyclization. While formation of 5- and 6-membered rings can be achieved from the free alcohols using fluoride or silanolate, allylic acetate precursors to 5-membered rings display distinct modes of activation. The utility of these compounds is demonstrated through the preparation of a variety of (Z)-alkene-containing polyenes and application to a concise total synthesis of leukotriene B3.

Direct sulfonylation of anilines mediated by visible light

Chemical Science Royal Society of Chemistry 9:3 (2017) 629-633

Authors:

Tarn Johnson, Bryony Elbert, Alistair Farley, Timothy Gorman, Christophe Genicot, B Lallemand, P Pasau, J Flasz, J Castro, M MacCoss, Darren Dixon, Robert Paton, Christopher Schofield, Martin Smith, Michael Willis

Abstract:

Sulfones feature prominently in biologically active molecules and are key functional groups for organic synthesis. We report a mild, photoredox-catalyzed reaction for sulfonylation of aniline derivatives with sulfinate salts, and demonstrate the utility of the method by the late-stage functionalization of drugs. Key features of the method are the straightforward generation of sulfonyl radicals from bench-stable sulfinate salts and the use of simple aniline derivatives as convenient readily available coupling partners.