Prospects have become even more appealing after a publication, entitled «Band structure engineering via piezoelectric fields in strained anisotropic CdSe /
CdS nanocrystals,» was published in the journal Nature Communications last July.
Using an engineered strain of Stenotrophomonas maltophilia to control particle size, Lehigh researchers biosynthesized quantum dots using bacteria and cadmium sulfide to provide a route to low - cost, scalable and green synthesis of
CdS nanocrystals with extrinsic crystallite size control in the quantum confinement range.
Not exact matches
«Biomanufacturing of
CdS quantum dots: A bacterial method for the low - cost, environmentally - friendly synthesis of aqueous soluble quantum dot
nanocrystals.»
The result is
CdS semiconductor
nanocrystals with associated size - dependent band gap and photoluminescent properties.
Two papers with among the longest titles found in the journal that year, «The role of particle morphology in interfacial energy transfer in CDSE /
CDS heterostructure
nanocrystals» and «Insects betray themselves in nature to predators by rapid isomerization of green leaf volatiles,» have 68 and 67 citations, respectively.