Ziel
Chirality is a fundamental property of life, making chiral sensing and analysis crucial to numerous scientific subfields of biology, chemistry, and medicine, and to the pharmaceutical, chemical, cosmetic, and food industries, constituting a market of 10s of billion €, and growing.
Despite the tremendous importance of chiral sensing, its application remains very limited, as chiroptical signals are typically very weak, preventing important biological and medical applications. Recently, the project-coordinating FORTH team has introduced a new form of Chiral-Cavity-based Polarimetry (CCP) for chiral sensing, which has three groundbreaking advantages compared to commercial instruments: (a) The chiroptical signals are enhanced by the number of cavity passes (typically ~1000); (b) otherwise limiting birefringent backgrounds are suppressed;
(c) rapid signal reversals give absolute polarimetry measurements, not requiring sample removal for a null-sample measurement. Together, these advantages allow improvement in chiral detection sensitivity by 3-6 orders of magnitude (depending on instrument complexity and price). ULTRACHIRAL aims to revolutionize existing applications of chiral sensing, but also to instigate important new domains which require sensitivities beyond current limits, including: (1) measuring protein structure in-situ, in solution, at surfaces, and within cells and membranes, thus realizing the “holy-grail” of proteomics; (2) coupling to high performance liquid chromatography (HPLC) for chiral identification of the components of complex mixtures, creating new standards for the pharmaceutical and chemical analysis industries; (3) chiral analysis of human bodily fluids as a diagnostic tool in medicine; (4) measurement of single-molecule chirality, by adapting CCP to microresonators, which have already demonstrated single-molecule detection; and (5) real-time chiral monitoring of terpene emissions from individual trees and forests, as a probe of forest ecology.
Wissenschaftliches Gebiet
Programm/Programme
Aufforderung zur Vorschlagseinreichung
Andere Projekte für diesen Aufruf anzeigenUnterauftrag
H2020-FETOPEN-1-2016-2017
Finanzierungsplan
RIA - Research and Innovation actionKoordinator
70013 Irakleio
Griechenland