[ { "key": "DRDIEAMG", "version": 1, "library": { "type": "group", "id": 30701, "name": "Global Analysis", "links": { "alternate": { "href": "https://www.zotero.org/groups/global_analysis", "type": "text/html" } } }, "links": { "self": { "href": "https://api.zotero.org/groups/30701/items/DRDIEAMG", "type": "application/json" }, "alternate": { "href": "https://www.zotero.org/groups/global_analysis/items/DRDIEAMG", "type": "text/html" } }, "meta": { "createdByUser": { "id": 410778, "username": "jsnel", "name": "Joris Snellenburg", "links": { "alternate": { "href": "https://www.zotero.org/jsnel", "type": "text/html" } } }, "creatorSummary": "van Stokkum", "parsedDate": "2005", "numChildren": 0 }, "data": { "key": "DRDIEAMG", "version": 1, "itemType": "document", "title": "Global and target analysis of time-resolved spectra", "creators": [ { "creatorType": "author", "firstName": "Ivo H.M.", "lastName": "van Stokkum" } ], "abstractNote": "In (bio)physical/(bio)chemical research the response of a complex system to an externally applied perturbation is often studied. In most cases the obtained response is of a complexity that prohibits direct interpretation of the obtained data. In the case of time-resolved spectroscopy, measurements at multiple wavelengths can often be used to disentangle complex kinetics. These time-resolved spectra can be considered as an example of multiway data. In these lectures, the methodology for global and target analysis of time-resolved spectra is explained, both from a practical, and from a fundamental/mathematical point of view. To fully extract the information from the overwhelming amount of data a model-based analysis is mandatory. This analysis is based upon assumptions regarding the measurement process and upon a physicochemical model for the complex system. The model is composed of building blocks representing scientiļ¬c knowledge and assumptions, such as the instrument response function, the components of the system connected in a kinetic scheme, and additional properties of the components (e.g. anisotropy). The use of a combined model for the kinetics and for the spectra of the components results in a more powerful spectro-temporal model. The model parameters, like rate constants and spectra, can be estimated from the data, thus providing a concise description of the complex system dynamics. This spectro-temporal modelling approach is illustrated with several case studies.", "type": "", "date": "2005", "publisher": "VU University Amsterdam", "place": "", "DOI": "", "citationKey": "", "url": "http://www.nat.vu.nl/~ivo/lecturenotes.pdf", "accessDate": "2010-11-17", "archive": "", "archiveLocation": "", "shortTitle": "", "language": "", "libraryCatalog": "", "callNumber": "0091", "rights": "", "extra": "", "tags": [], "collections": [], "relations": {}, "dateAdded": "2010-11-17T14:12:38Z", "dateModified": "2011-10-02T07:31:07Z" } } ]