Plants are full of biochemical potential. Today in GigaScience, we publish an article that presents a searchable library of spectra and molecules found in a collection of 1,600 plant extracts.
Plants are full of biochemical potential. Today in GigaScience, we publish an article that presents a searchable library of spectra and molecules found in a collection of 1,600 plant extracts.
I am exploring the fascinating diverse facets of a recently published laboratory experiment for undergraduate students.[cite]10.1021/acs.jchemed.7b00566[/cite] Previously I looked at a possible mechanistic route for the reaction between an enal (a conjugated aldehyde-alkene) and benzyl chloride catalysed by base and a chiral amine, followed by the use of NMR coupling constants to assign relative stereochemistries.
The title here is from an article on metalenses[cite]10.1021/acs.nanolett.6b01897[/cite] which caught my eye. Metalenses are planar and optically thin layers which can be manufactured using a single-step lithographic process. This contrasts with traditional lenses that are not flat and where the optical properties result from very accurately engineered curvatures, which in turn are expensive to manufacture.