aller au contenu
Studies of the Formation and Decay of Triplet States of Aromatic Molecules. Aperçu de cet ouvrage
FermerAperçu de cet ouvrage
Vérifiant…

Studies of the Formation and Decay of Triplet States of Aromatic Molecules.

Auteur : Maurice W Windsor; TRW SYSTEMS GROUP REDONDO BEACH CALIF.
Éditeur : Ft. Belvoir Defense Technical Information Center 23 DEC 1971.
Édition/format :   Livre : Anglais
Base de données :WorldCat
Résumé :
Experimental techniques for measuring fluorescence, phophorescence and triplet quantum yields for organic molecules in rigid plastic media as a function of temperature were developed. Comprehensive sets of data were obtained for pyrene, coronene, 1,2-benzocoronene and 1,12-benzperylene. The florescence yields of 18 aromatics were observed in absorption using the new technique of nonosecond laser photolysis ane  Lire la suite...
Évaluation :

(pas encore évalué) 0 avec des critiques - Soyez le premier.

Sujets
Plus comme ceci

 

Trouver un exemplaire dans la bibliothèque

&AllPage.SpinnerRetrieving; Recherche de bibliothèques qui possèdent cet ouvrage...

Détails

Format : Livre
Tous les auteurs / collaborateurs : Maurice W Windsor; TRW SYSTEMS GROUP REDONDO BEACH CALIF.
Numéro OCLC : 227652827
Description : 55 p.

Résumé :

Experimental techniques for measuring fluorescence, phophorescence and triplet quantum yields for organic molecules in rigid plastic media as a function of temperature were developed. Comprehensive sets of data were obtained for pyrene, coronene, 1,2-benzocoronene and 1,12-benzperylene. The florescence yields of 18 aromatics were observed in absorption using the new technique of nonosecond laser photolysis ane spectroscopy. The effects of H-banding were studied in several aza-aromatics. The data obtained were used to draw conclusions relevant to the theory of radiationless transitions. Finally an experimental technique for pico-second laser photolysis and spectroscopy was developed and used to observe inverse Raman spectra of several molecules and a new subnanosecond transient absorption in the dye laser molecule, Rhodamine-6G. (Author).

Critiques

Critiques d’utilisateurs
Récupération des critiques de GoodReads...
Récuperation des critiques DOGObooks…

Tags

Soyez le premier.
Confirmez cette demande

Vous avez peut-être déjà demandé cet ouvrage. Veuillez sélectionner OK si vous voulez poursuivre avec cette demande quand même.

Données liées


<http://www.worldcat.org/oclc/227652827>
library:oclcnum"227652827"
library:placeOfPublication
library:placeOfPublication
rdf:typeschema:Book
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:contributor
schema:contributor
schema:datePublished"1971"
schema:datePublished"23 DEC 1971"
schema:description"Experimental techniques for measuring fluorescence, phophorescence and triplet quantum yields for organic molecules in rigid plastic media as a function of temperature were developed. Comprehensive sets of data were obtained for pyrene, coronene, 1,2-benzocoronene and 1,12-benzperylene. The florescence yields of 18 aromatics were observed in absorption using the new technique of nonosecond laser photolysis ane spectroscopy. The effects of H-banding were studied in several aza-aromatics. The data obtained were used to draw conclusions relevant to the theory of radiationless transitions. Finally an experimental technique for pico-second laser photolysis and spectroscopy was developed and used to observe inverse Raman spectra of several molecules and a new subnanosecond transient absorption in the dye laser molecule, Rhodamine-6G. (Author)."@en
schema:exampleOfWork<http://worldcat.org/entity/work/id/137354464>
schema:inLanguage"en"
schema:name"Studies of the Formation and Decay of Triplet States of Aromatic Molecules."@en
schema:numberOfPages"55"
schema:publication
schema:publisher
wdrs:describedby

Content-negotiable representations

Fermer la fenêtre

Veuillez vous identifier dans WorldCat 

Vous n’avez pas de compte? Vous pouvez facilement créer un compte gratuit.