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Zeolitic imidazolate framework-71 nanocrystals and a novel SOD-type polymorph: solution mediated phase transformations, phase selection via coordination modulation and a density functional theory derived energy landscapeSchweinefuß, Maria E., Springer, Sergej, Baburin, Igor A., Hikov, Todor, Huber, Klaus, Leoni, Stefano, Wiebcke, Michael 27 November 2019 (has links)
We report a rapid additive-free synthesis of nanocrystals (NCs) of RHO-type ZIF-71 (1) of composition [Zn(dcim)₂] (dcim = 4,5-dichloroimidazolate) in 1-propanol as solvent at room temperature. NC-1 has a size of 30–60 nm and exhibits permanent microporosity with a surface area (SBET = 970 m² g−¹) comparable to that of microcrystalline material. When kept under the mother solution NC-1 undergoes transformation into a novel SOD-type polymorph (2), which in turn converts into known ZIF-72 (3) with lcs topology. It is shown that microcrystals (MCs) of 2 can be favourably synthesised using 1-methylimidazole as a coordination modulator. NC-2 with size <200 nm was prepared using NC-ZIF-8 as a template with SOD topology in a solvent assisted ligand exchange-related process. DFT-assisted Rietveld analysis of powder XRD data revealed that novel polymorph 2 possesses an unusual SOD framework conformation. 2 was further characterised with regard to microporosity (SBET = 597 m² g−¹) and thermal as well as chemical stability. DFT calculations were performed to search for further potentially existing but not-yet synthesised polymorphs in the [Zn(dcim)₂] system.
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Synthesis, optical and morphological characterization of pbse quantum dots for diagnostic studies: a model studyOuma, Linda Achiengꞌ January 2013 (has links)
>Magister Scientiae - MSc / In this study PbSe quantum dots (QDs) were successfully synthesized via the organometallic and aqueous routes. Optical characterization was carried out using photoluminescence (PL) spectroscopy, structural and morphological characterization were carried out using X-ray diffraction (XRD) and transmission electron microscopy (TEM). Energy-dispersive X-ray spectroscopy (EDS) was used to determine the composition of the QDs. All the synthesized QDs were found to have emissions within the near-infrared region of the spectrum (≥1000 nm) with most of them being less than 5 nm in size. The aqueous synthesized QDs had a perfect Gaussian emission spectrum with a FWHM of ~23 nm indicating pure band gap emission and narrow size distribution respectively. The QDs were determined to have a cubic rock-salt crystal structure consistent with bulk PbSe. The aqueous synthesized QDs were however not stable in solution with the QDs precipitating after approximately 48 h. The organometallic synthesized QDs were transferred into the aqueous phase by exchanging the surface oleic acid ligands with 11-mercaptoundecanoic acid ligands. The ligand exchanged QDs were however stable in solution for over two weeks. The effects of reaction parameters on the optical and structural properties of the organometallic synthesized QDs were investigated by varying the reaction time, temperature, ligand purity, lead and selenium sources. It was observed that larger QDs were formed with longer reaction times, with reactions proceeding faster at higher reaction temperatures than at lower temperatures. Varying the ligand purity was found to have minimal effects on the properties of the synthesized QDs. The lead and selenium sources contributed largely to the properties of the QDs with lead oxide producing spherical QDs which were smaller compared to the cubic QDs produced from lead acetate. TBPSe was seen to produce smaller QDs as compared to TOPSe. The cytotoxity of the synthesized QDs was determined following the WST-1 cell viability assay with the QDs being found to be non-toxic at all the tested concentrations
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Οπτικές ιδιότητες κβαντικών τελειών CuInS2 /ZnS με τεχνικές φασματοσκοπίας σταθερής κατάστασης και χρονικής ανάλυσηςΔροσερός, Νικόλαος 07 July 2015 (has links)
Στην παρούσα Ειδική Ερευνητική Εργασία ερευνώνται οι οπτικές ιδιότητες των νανοκρυσταλλικών κβαντικών τελειών CuInS2/ZnS, γνωστές ως CIS/ZnS QDs, τόσο με τη χρήση φασματοσκοπίας σταθερής κατάστασης όσο και με τη χρήση φασματοσκοπίας χρονικής ανάλυσης με την τεχνική Time Correlated Single Photon Counting. Ειδικότερα, διερευνώνται οι μηχανισμοί που εμπλέκονται στη διαδικασία της εκπομπής φωτός, η επίδραση που έχει η πολικότητα του διαλύτη και η συγκέντρωση των κβαντικών τελειών, όταν είναι διαλυμένες εντός διαλύματος, καθώς και η αλληλεπίδραση μεταξύ των κβαντικών τελειών όταν είναι εναποτιθέμενες σε υμένια, είτε με την τεχνική drop-casting είτε με spin-coating.
Τόσο η αύξηση της συγκέντρωσης των κβαντικών τελειών όσο και η αύξηση της πολικότητας του διαλύτη προκάλεσε τη μετατόπιση του εξιτονικού ώμου και του μήκους κύματος μέγιστης εκπομπής προς το ερυθρό, στα φάσματα σταθερής κατάστασης. Επίσης η μετατόπιση της φωτοφωταύγειας των CIS/ZnS QDs προς το ερυθρό ήταν μεγαλύτερη στα υμένια που είχαν παρασκευασθεί με την τεχνική drop-casting από τα υμένια με το ίδιο υπόστρωμα που είχαν παρασκευασθεί με την τεχνική spin-coating.
Με χρήση φασματοσκοπίας χρονικής ανάλυσης, ανιχνεύθηκε η ύπαρξη τριών μηχανισμών στα διαλύματα με χρόνους ζωής 1-3, 20-40 και 200-300 ns, ενώ στα υμένια προστέθηκε ένας επιπλέον μηχανισμός με χρόνο ζωής από μερικές εκατοντάδες ps έως 4 ns. Ο χαρακτήρας της αποδιέγερσης των QDs στα υμένια κυμαίνεται μεταξύ διεκθετικού και τετραεκθετικού ανάλογα με το δείγμα και το μήκος κύματος ανίχνευσης. Το περίεργο χαρακτηριστικό του νέου μηχανισμού που ανιχνεύθηκε στα υμένια είναι ότι γίνεται πιο γρήγορος και πιο αποδοτικός καθώς το μήκος κύματος ανίχνευσης αυξάνει. Ένας παρόμοιος μηχανισμός δεν έχει αναφερθεί σε άλλες εργασίες με CIS/ZnS QDs, ενώ έχει αναφερθεί σε παλιότερες εργασίες με PbS QDs τόσο σε διαλύματα όσο και σε στερεά υμένια. Η μετατόπιση των πυκνών υμενίων προς το ερυθρό σε σχέση με τα αραιά αποτελεί ένδειξη της ύπαρξης μεταφοράς ενέργειας μεταξύ QDs διαφορετικών μεγεθών. / In this Master Thesis, the optical properties of CuInS2/ZnS nanocrystal quantum dots are investigated. For this purpose both steady state and time resolved spectroscopy, specifically the Time Correlated Single Photon Counting technique, were used. The photoluminescence properties of CuInS2/ZnS quantum dots, commonly known as CIS/ZnS QDs, either dissolved in solutions of different concentrations and solvent polarities or deposited on films made by spin-coating or drop-casting are studied.
Either in the absorption and the photoluminescence steady state spectra, a red-shift both in the excitonic transition and the wavelength of the maximum intensity was observed as the concentration of the CIS/ZnS QDs or the polarity of the solvent increased. In films, a red-shifted photoluminescence spectrum is observed for films made by drop-casting compared to those prepared by spin-coating, having the same substrate material.
By using time-resolved photoluminescence spectroscopy a three-exponential decay was observed in solutions, with time constants 1-3, 20-40 and 200-300 ns, while decays in films, apart from the three mechanisms also observed in solutions, also exhibit a fast decay component with a lifetime varying from some hundreds of ps until 4 ns. The attitude of the decay in films varies from two-exponential to four-exponential and it depends on the samples and the detection wavelength. The strange characteristic of the new mechanism which was detected in films is that its lifetime becomes shorter and its pre-exponential factor increases with the detection wavelength. To the best of our knowledge, such a faster decay as the emission wavelength increases has never been reported for CIS/ZnS QDs, but it has been reported for PbS QDs either diluted in solution or deposited in polymeric matrices. The time resolved photoluminescence spectra in the drop-casted films experience a larger transient red-shift than the spin-coated ones, indicative of a possible energy transfer among adjacent QDs with different diameters.
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