![\"two](\"https:\/\/www.rochester.edu\/newscenter\/wp-content\/uploads\/2017\/12\/krauss-frenette-quantum-dots.jpg\")
Ironically, the team discovered that, at one point during this process, the safer, more controllable compounds now employed decompose into the same highly toxic compounds that were used in initial quantum dot production 30 years ago.<\/p>\n
\u201cWe have essentially gone \u2018back to the future\u2019 with our discovery,\u201d says Krauss. \u201cWhat Leah discovered was, during the quantum dot synthesis reaction, the currently used compounds decompose into the very chemicals we have been trying to avoid for decades, which then react to form the quantum dots.\u201d<\/p>\n
The findings, Krauss says, constitute a \u201cfundamental discovery\u201d that could potentially:<\/p>\n
- \n
- Lead to removal of much of the guesswork in production of cadmium\/selenium quantum dots that has led to inconsistencies and irreproducibility, hindering industrial applications.<\/li>\n
- Alert researchers and companies working on large scale quantum dot syntheses that that highly toxic hydrogen selenide and cadmium akyl complexes (arguably the most dangerous chemicals in the world) are still \u201clurking\u201d as part of the synthesis process.<\/li>\n
- Help explain the chemical behavior of phosphines used in a broad range of quantum dot reactions at high temperatures.<\/li>\n<\/ol>\n
Quantum dots, which exhibit properties intermediate between bulk semiconductors and single molecules, are particularly interesting materials because they have properties that are highly \u201ctunable.\u201d For example, larger quantum dots emit longer wavelengths, producing reds and oranges. Smaller dots emit shorter wavelengths resulting in blues and greens, although the specific colors and sizes vary depending on the exact composition of the quantum dot.<\/p>\n
![\"artist](\"https:\/\/www.rochester.edu\/newscenter\/wp-content\/uploads\/2017\/05\/fea-quantum-dots.jpg\")
A quantum dot has the chemical and photo stability of minerals, but has a layer of organic molecules on the outside that \u201callows it to be manipulated just as you would manipulate small molecules in solution. You can spray them, you can coat them on surfaces, you can mix them, and do all different chemistries with them,\u201d says Todd Krauss, professor and chair of chemistry. (University illustration \/ Michael Osadciw)<\/figcaption><\/figure>\n \u201cYou change the temperature, you change the precursor concentrations, you change the volume of the flask, you change the solvent, and eventually you find the right combination of factors that give you particles (dots) of high quality,\u201d Krauss says.<\/p>\n
He likens current synthetic approaches to an audiophile adjusting the treble and bass knobs on a sound system, without any deep understanding of sine waves.<\/p>\n
\u201cIt works. But at some point we feel you have to figure out exactly how the dots are made, and that\u2019s what will lead to future breakthroughs in making them significantly better,\u201d Krauss says.<\/p>\n","protected":false},"excerpt":{"rendered":"
For more than 30 years, researchers have been creating quantum dots\u2014nanoscale semiconductors with remarkable properties. But quantum dot synthesis has occurred largely by trial and error. Thanks to the work of two Rochester chemists, that may be about to change. <\/p>\n","protected":false},"author":286,"featured_media":287182,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[116],"tags":[19862,29502,37312,17762,18572,16072,3496],"class_list":["post-286592","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-sci-tech","tag-department-of-chemistry","tag-featured-post-side","tag-materials-science-program","tag-quantum-science","tag-research-finding","tag-school-of-arts-and-sciences","tag-todd-krauss"],"acf":[],"yoast_head":"\n
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