TY  - THES
A1  - Olejko, Lydia
T1  - Förster resonance energy transfer (FRET)-based nanophotonics using DNA origami structures
T1  - Förster-Resonanzenergietransfer (FRET) basierende Nanophotonik auf DNA Origami Strukturen
N2  - The field of nanophotonics focuses on the interaction between electromagnetic radiation and matter on the nanometer scale. The elements of nanoscale photonic devices can transfer excitation energy non-radiatively from an excited donor molecule to an acceptor molecule by Förster resonance energy transfer (FRET). The efficiency of this energy transfer is highly dependent on the donor-acceptor distance. Hence, in these nanoscale photonic devices it is of high importance to have a good control over the spatial assembly of used fluorophores. Based on molecular self-assembly processes, various nanostructures can be produced. Here, DNA nanotechnology and especially the DNA origami technique are auspicious self-assembling methods. By using DNA origami nanostructures different fluorophores can be introduced with a high local control to create a variety of nanoscale photonic objects. The applications of such nanostructures range from photonic wires and logic gates for molecular computing to artificial light harvesting systems for artificial photosynthesis.
In the present cumulative doctoral thesis, different FRET systems on DNA origami structures have been designed and thoroughly analyzed. Firstly, the formation of guanine (G) quadruplex structures from G rich DNA sequences has been studied based on a two-color FRET system (Fluorescein (FAM)/Cyanine3 (Cy3)). Here, the influences of different cations (Na+ and K+), of the DNA origami structure and of the DNA sequence on the G-quadruplex formation have been analyzed. In this study, an ion-selective K+ sensing scheme based on the G-quadruplex formation on DNA origami structures has been developed. Subsequently, the reversibility of the G-quadruplex formation on DNA origami structures has been evaluated. This has been done for the simple two-color FRET system which has then been advanced to a switchable photonic wire by introducing additional fluorophores (FAM/Cy3/Cyanine5 (Cy5)/IRDye®700). In the last part, the emission intensity of the acceptor molecule (Cy5) in a three-color FRET cascade has been tuned by arranging multiple donor (FAM) and transmitter (Cy3) molecules around the central acceptor molecule. In such artificial light harvesting systems, the excitation energy is absorbed by several donor and transmitter molecules followed by an energy transfer to the acceptor leading to a brighter Cy5 emission. Furthermore, the range of possible excitation wavelengths is extended by using several different fluorophores (FAM/Cy3/Cy5). In this part of the thesis, the light harvesting efficiency (antenna effect) and the FRET efficiency of different donor/transmitter/acceptor assemblies have been analyzed and the artificial light harvesting complex has been optimized in this respect.
N2  - Nanotechnologie hat in den letzten Jahrzehnten durch die Herstellung von Materialien mit außergewöhnlichen Eigenschaften für Anwendungen im Bereich der Medizin und Materialwissenschaften immer mehr an Popularität gewonnen. Die Herstellungsmethoden von Nanostrukturen sind weit gefächert. Auch Desoxyribonukleinsäure (DNS bzw. engl. DNA, deoxyribonucleic acid) kann für die Herstellung von Strukturen im Nanometerbereich genutzt werden. Diese sogenannte DNA-Nanotechnologie wurde in den frühen 1980er Jahren von Nadrian C. Seeman begründet. Ungefähr 30 Jahre später wurde eine neue Methodik für die Herstellung von DNA-Nanostrukturen von Paul W. K. Rothemund entwickelt, die er „scaffold DNA origami“ (Gerüst-DNA-Origami) nannte. DNA-Origami-Nanostrukturen können relativ einfach hergestellt werden und eignen sich perfekt für die Anordnung unterschiedlicher Moleküle (zum Beispiel Fluorophore) mit hoher räumlicher Kontrolle und Präzision. Daher können sie als Substrate genutzt werden, um verschiedene Förster-Resonanzenergietransfer (FRET) Systeme zu entwerfen und zu untersuchen. FRET ist ein strahlungsloser Energietransfer, bei dem die Anregungsenergie von einem Donor- auf ein Akzeptor-Molekül übertragen wird.
In dieser kumulativen Doktorarbeit wurden verschiedene FRET-Systeme auf DNA-Origami-Nanostrukturen entwickelt und mithilfe der Fluoreszenzspektroskopie untersucht. Hierbei wurde zuerst die durch einwertige Kationen (Kalium oder Natrium) induzierte Guanin-Quadruplex-Faltung von freier Telomer-DNA und Telomer-DNA auf DNA-Origami-Strukturen mittels FRET analysiert. Diese Untersuchungen haben gezeigt, dass die freie umgedrehte menschliche Telomer-Sequenz (RevHumTel, 5'-(GGG ATT)4) generell sensitiver auf K+ als auf Na+ reagiert. Durch die Immobilisierung der Telomer-DNA auf DNA-Origami-Strukturen kann eine vollständige Selektivität für K+ erreicht werden. Interessanterweise wird die Ionenselektivität aufgehoben, wenn die menschliche Telomer-Sequenz (HumTel, 5'-(TTA GGG)4) verwendet wird. Basierend auf der G-Quadruplex-Faltung konnten schaltbare FRET-Systeme entwickelt werden, da sich die G-Quadruplexe wieder entfalten, wenn die Kationen mithilfe von zum Beispiel Kryptanden entfernt werden. In den hier untersuchten FRET-Systemen konnte zwischen hoher FRET-Effizienz (gefalteter G-Quadruplex) und niedriger FRET-Effizienz (entfalteter DNA Einzelstrang) durch Zugabe KCl bzw. cryptand gewechselt werden. Da sich DNA-Origami-Strukturen recht einfach modifizieren lassen, wurde das ursprüngliche zwei-Farben-FRET-System durch Hinzufügen eines weiteren etwas rotverschobenen Farbstoffes erweitert (drei-Farben-FRET-Kaskade). Schließlich konnte ein schaltbarer photonischer Draht durch Einfügen eines vierten Farbstoffes entwickelt werden. Die Emissionsintensität des finalen Akzeptors ist in einer einfachen drei-Farben-FRET-Kaskade (ein Donor, ein Transmitter und ein Akzeptor) verhältnismäßig gering und kann durch das Anordnen von mehreren Donor- und Transmitter-Molekülen um ein zentrales Akzeptor-Molekül herum stark erhöht werden. In diesen sogenannten künstlichen Lichtsammelkomplexen absorbieren die Donor-Moleküle das Anregungslicht und übertragen dieses über mehrere FRET-Stufen zum Akzeptor-Molekül. Dadurch wird der Wellenlängenbereich der elektromagnetischen Strahlung, welcher vom Akzeptor absorbiert werden kann, vergrößert und die Emissionsintensität des Akzeptors verstärkt. In diesem Teil der Arbeit wurde die Anzahl der Farbstoffe und die Anordnung dieser unterschiedlichen Farbstoffe variiert und die Lichtsammeleffizienz und FRET-Effizienz bestimmt. Hierbei wurden diese Parameter optimiert und aufgrund der gefundenen Ergebnisse konnten Design-Regeln für solche künstlichen Lichtsammelkomplexe aufgestellt werden.
KW  - DNA origami
KW  - FRET
KW  - Förster resonance energy transfer
KW  - DNA Origami
KW  - FRET
KW  - Förster-Resonanzenergietransfer
Y1  - 2017
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-396747
ER  - 
TY  - JOUR
A1  - Sung, Jian-Ke
A1  - Kochovski, Zdravko
A1  - Zhang, Wei-Yi
A1  - Kirmse, Holm
A1  - Lu, Yan
A1  - Antonietti, Markus
A1  - Yuan, Jiayin
T1  - General Synthetic Route toward Highly Dispersed Metal Clusters Enabled by Poly(ionic liquid)s
JF  - Journal of the American Chemical Society
N2  - The ability to synthesize a broad spectrum of metal clusters (MCs) with their size controllable on a subnanometer scale presents an enticing prospect for exploring nanosize-dependent properties. Here we report an innovative design of a capping agent from a polytriazolium poly(ionic liquid) (PIL) in a vesicular form in solution that allows for crafting a variety of MCs including transition metals, noble metals, and their bimetallic alloy with precisely controlled sizes (similar to 1 nm) and record-high catalytic performance. The ultrastrong stabilization power is a result of an unusual synergy between the conventional binding sites in the heterocyclic cations in PIL and an in situ generated polycarbene structure induced simultaneously to the reduction reaction.
Y1  - 2017
U6  - https://doi.org/10.1021/jacs.7b03357
SN  - 0002-7863
VL  - 139
SP  - 8971
EP  - 8976
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - THES
A1  - Heck, Christian
T1  - Gold and silver nanolenses self-assembled by DNA origami
T1  - Gold- und Silbernanolinsen, selbstassembliert durch DNA-Origami
N2  - Nanolenses are linear chains of differently-sized metal nanoparticles, which can theoretically provide extremely high field enhancements. The complex structure renders their synthesis challenging and has hampered closer analyses so far. Here, the technique of DNA origami was used to self-assemble DNA-coated 10 nm, 20 nm, and 60 nm gold or silver nanoparticles into gold or silver nanolenses. Three different geometrical arrangements of gold nanolenses were assembled, and for each of the three, sets of single gold nanolenses were investigated in detail by atomic force microscopy, scanning electron microscopy, dark-field scattering and Raman spectroscopy. The surface-enhanced Raman scattering (SERS) capabilities of the single nanolenses were assessed by labelling the 10 nm gold nanoparticle selectively with dye molecules. The experimental data was complemented by finite-difference time-domain simulations. For those gold nanolenses which showed the strongest field enhancement, SERS signals from the two different internal gaps were compared by selectively placing probe dyes on the 20 nm or 60 nm gold particles. The highest enhancement was found for the gap between the 20 nm and 10 nm nanoparticle, which is indicative of a cascaded field enhancement. The protein streptavidin was labelled with alkyne groups and served as a biological model analyte, bound between the 20 nm and 10 nm particle of silver nanolenses. Thereby, a SERS signal from a single streptavidin could be detected. Background peaks observed in SERS measurements on single silver nanolenses could be attributed to amorphous carbon. It was shown that the amorphous carbon is generated in situ.
N2  - Nanolinsen sind Strukturen aus linear angeordneten, unterschiedlich großen metallischen Nanopartikeln. Elektromagnetische Felder können durch sie theoretisch extrem verstärkt werden, aufgrund ihres komplexen Aufbaus sind sie bislang aber wenig erforscht. Im Rahmen dieser Dissertation wurden Nanolinsen mit Hilfe der DNA-Origami-Technik aus DNA-beschichteten 10 nm-, 20 nm- und 60 nm-Gold- oder Silbernanopartikeln hergestellt. Für Goldnanolinsen sind die Partikel dabei in drei unterschiedlichen Geometrien angeordnet worden. Einzelne Goldnanolinsen wurden mittels Rasterkraftmikroskopie, Rasterelektronenmikroskopie, Dunkelfeld- und Ramanspektroskopie untersucht. Um die Raman-Verstärkung quantifizieren zu können, trugen dabei jeweils die 10 nm-Goldpartikel Farbstoffmoleküle in ihrer Beschichtung. Die Interpretation der Messdaten wurde durch numerische Simulationen unterstützt. Nanolinsen zeichnen sich durch eine stufenweise Feldverstärkung aus. Dieser Effekt konnte experimentell bestätigt werden, indem selektiv die 20 nm- oder 60 nm-Partikel von Goldnanolinsen mit Farbstoffen markiert und die resultierenden Raman-Signale verglichen wurden. Ein mit Alkingruppen markiertes Protein ist ortsselektiv in Silbernanolinsen integriert worden. Es war möglich, das für das Alkin charakteristische oberflächenverstärkte Raman-Signal im Spektrum einer einzelnen Nanolinse und damit eines einzelnen Proteins zu beobachten. Bei den Messungen mit Silbernanolinsen sind für amorphe Kohlenstoffspezies charakterstische Hintergrundsignale beobachtet worden. Durch zeitabhängige Messungen konnte gezeigt werden, dass diese Spezies erst in situ gebildet werden.
KW  - DNA origami
KW  - gold nanoparticles
KW  - silver nanoparticles
KW  - SERS
KW  - self-assembly
KW  - plasmonics
KW  - nanolenses
KW  - DNA-Origami
KW  - Goldnanopartikel
KW  - Silbernanopartikel
KW  - SERS
KW  - Selbstassemblierung
KW  - Plasmonik
KW  - Nanolinsen
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-409002
ER  - 
TY  - JOUR
A1  - Heck, Christian
A1  - Prinz, Julia
A1  - Dathe, Andre
A1  - Merk, Virginia
A1  - Stranik, Ondrej
A1  - Fritzsche, Wolfgang
A1  - Kneipp, Janina
A1  - Bald, Ilko
T1  - Gold Nanolenses Self-Assembled by DNA Origami
JF  - ACS Photonics
N2  - Nanolenses are self-similar chains of metal nanoparticles, which can theoretically provide extremely high field enhancements. Yet, the complex structure renders their synthesis challenging and has hampered closer analyses so far. Here, DNA origami is used to self-assemble 10, 20, and 60 nm gold nanoparticles as plasmonic gold nanolenses (AuNLs) in solution and in billions of copies. Three different geometrical arrangements are assembled, and for each of the three designs, surface-enhanced Raman scattering (SERS) capabilities of single AuNLs are assessed. For the design which shows the best properties, SERS signals from the two different internal gaps are compared by selectively placing probe dyes. The highest Raman enhancement is found for the gap between the small and medium nanoparticle, which is indicative of a cascaded field enhancement.
KW  - plasmonics
KW  - DNA origami
KW  - SERS
KW  - nanolenses
KW  - gold nanoparticles
Y1  - 2017
U6  - https://doi.org/10.1021/acsphotonics.6b00946
SN  - 2330-4022
VL  - 4
SP  - 1123
EP  - 1130
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Andrews, N. L. P.
A1  - Ferguson, T.
A1  - Rangaswamy, A. M. M.
A1  - Bernicky, A. R.
A1  - Henning, N.
A1  - Dudelzak, A.
A1  - Reich, Oliver
A1  - Barnes, Jack A.
A1  - Loock, Hans-Peter
T1  - Hadamard-Transform Fluorescence Excitation-Emission-Matrix Spectroscopy
JF  - Analytical chemistry
N2  - We present a fluorescence excitation-emission-matrix spectrometer with superior data acquisition rates over previous instruments. Light from a white light emitting diode (LED) source is dispersed onto a digital micromirror array (DMA) and encoded using binary n-size Walsh functions ("barcodes"). The encoded excitation light is used to irradiate the liquid sample and its fluorescence is dispersed and detected using a conventional array spectrometer. After exposure to excitation light encoded in n different ways, the 2-dimensional excitation-emission-matrix (EEM) spectrum is obtained by inverse Hadamard transformation. Using this technique we examined the kinetics of the fluorescence of rhodamine B as a function of temperature and the acid-driven demetalation of chlorophyll into pheophytin-a. For these experiments, EEM spectra with 31 excitation channels and 2048 emission channels were recorded every 15 s. In total, data from over 3000 EEM spectra were included in this report. It is shown that the increase in data acquisition rate can be as high as [{n(n + 1)}/2]-fold over conventional EEM spectrometers. Spectral acquisition rates of more than two spectra per second were demonstrated.
Y1  - 2017
U6  - https://doi.org/10.1021/acs.analchem.7b02400
SN  - 0003-2700
SN  - 1520-6882
VL  - 89
SP  - 8554
EP  - 8564
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - von Klitzing, Regine
A1  - Stehl, Dimitrij
A1  - Pogrzeba, Tobias
A1  - Schomaäcker, Reinhard
A1  - Minullina, Renata
A1  - Panchal, Abhishek
A1  - Konnova, Svetlana
A1  - Fakhrullin, Rawil
A1  - Koetz, Joachim
A1  - Moehwald, Helmuth
A1  - Lvov, Yuri
T1  - Halloysites Stabilized Emulsions for Hydroformylation of Long Chain Olefins
JF  - Advanced materials interfaces
N2  - Halloysites as tubular alumosilicates are introduced as inexpensive natural nanoparticles to form and stabilize oil-water emulsions. This stabilized emulsion is shown to enable efficient interfacial catalytic reactions. Yield, selectivity, and product separation can be tremendously enhanced, e.g., for the hydroformylation reaction of dodecene to tridecanal. In perspective, this type of formulation may be used for oil spill dispersions. The key elements of the described formulations are clay nanotubes (halloysites) which are highly anisometric, can be filled by helper molecules, and are abundantly available in thousands of tons, making this technology scalable for industrial applications.
Y1  - 2016
U6  - https://doi.org/10.1002/admi.201600435
SN  - 2196-7350
VL  - 4
IS  - 1
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Dippong, Martin
A1  - Carl, Peter
A1  - Lenz, Christine
A1  - Schenk, Jörg A.
A1  - Hoffmann, Katrin
A1  - Schwaar, Timm
A1  - Schneider, Rudolf J.
A1  - Kuhne, Maren
T1  - Hapten-Specific Single-Cell Selection of Hybridoma Clones by Fluorescence-Activated Cell Sorting for the Generation of Monoclonal Antibodies
JF  - Analytical chemistry
Y1  - 2017
U6  - https://doi.org/10.1021/acs.analchem.6b04569
SN  - 0003-2700
SN  - 1520-6882
VL  - 89
SP  - 4007
EP  - 4012
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - THES
A1  - Braun, Max
T1  - Heterogeneous Catalysis for the Conversion of Fructose to Chemicals and Fuel in a Continuous Flow Process
T1  - Umsetzung von Fruktose zu Chemikalien und Treibstoff mittels heterogener Katalysatoren in einem kontinuierlichen Prozess
N2  - Die Umsetzung von Zucker (Kohlenhydrate) in einem kontinuierlichen Prozess eröffnet Möglichkeiten der Synthese diverser Chemikalien und Treibstoff aus erneuerbaren Ressourcen, welche heute überwiegend aus fossilen Quellen stammen. Passend zum Konzept der Bioraffinerie und der „grünen Chemie“, liegt der Fokus dieser Arbeit auf der Umsetzung von in Ethanol gelöster Fruktose in einem kontinuierlichen Verfahren, mit Hilfe eigens entwickelter heterogener Katalysatoren. Die Dehydratisierung von Fruktose wird mit einem heterogenen Säurekatalysator realisiert, während die Folgeprodukte mittels einer Hydrodesoxygenierung umgesetzt werden. Für den zweiten Schritt kommen Metallkatalysatoren auf Basis von Nickel und Wolframcarbid (WC) zum Einsatz, wodurch der Einsatz teurer Edelmetalle vermieden werden kann. Hauptprodukte des zweistufigen Verfahrens sind 2,5-Dimethylfuran (DMF) und Ethyllevulinat (EL). Beide Moleküle sind vielversprechende alternative Treibstoffe, bzw. können gebräuchlichen Treibstoffen beigemischt werden, um deren Einsatz zu reduzieren und schrittweise zu substituieren. Alternativ können die Zwischenprodukte der Dehydratisierung, sowie DMF und EL weiter zu Chemikalien umgesetzt werden, welche in der Polymersynthese, als Lösungsmittel oder als Grundchemikalien eingesetzt werden können. 
Die Entwicklung der jeweiligen Katalysatoren für Dehydratisierungs- und Hydrodesoxygenierungsreaktionen erfolgt auf Basis von karbonisierter Biomasse, sowie Wolframcarbid. Die jeweiligen Reaktivitäten werden durch Standardreaktionen getestet, wobei sich Wolframcarbid in Nanopartikelform, in Kombination mit Wasserstoff als sehr aktiv erwiesen hat. Der selbst entwickelte aktivierte Kohlenstoff, das kommerzielle Amberlyst 15, sowie Wolframcarbid mit zusätzlichen Nickel-Nanopartikeln werden für weiterführende Reaktionen in einem kontinuierlichen Prozess herangezogen und kombiniert.
Um den Umsatz von Fruktose zu DMF in einer „zwei Reaktoren Anlage“ zu ermöglichen, wird eine Erweiterung eines kommerziellen Reaktorsystems um einen weiteren Reaktor vorgenommen. Die Verweilzeit in der Reaktoranlage beträgt somit ca. 14 Minuten, wobei 11 Minuten auf die erste Säule (Dehydratisierung) und 3 Minuten auf die zweite Säule (Hydrodesoxygenierung) entfallen. In diesem kontinuierlichen und zweistufigen System lassen sich Ausbeuten von 38.5 % DMF und 47 % EL erzielen. Ein kontinuierlicher Lauf von sieben Stunden zeigt die Stabilität der eingesetzten Katalysatoren, auch wenn eine geringe Deaktivierung des Dehydratisierungskatalysators beobachtet werden kann. Der Ni@WC Katalysator zeigte hingegen keine Abnahme der Nickel Konzentration und somit kommt es zu keiner Auswaschung des Metalls. Das gebildete EL wurde hingegen nicht umgesetzt und verbleibt unverändert in Lösung. 
Das zweistufige System wurde schließlich in einem Mischkatalysatorsystem kombiniert, wobei auf aktivierten und sulfonierten Kohlenstoff zurückgegriffen wurde. Dieser zeigte bereits eine Transferhydrodesoxygenierungsaktivität. Diese Beobachtung ist deshalb bemerkenswert, da erst seit kurzem bekannt ist, dass Graphenstrukturen an sich katalytisch aktiv sein können. Um diese Aktivität weiter zu steigern, wurde der aktivierte Kohlenstoff mit 10 wt% Ni@WC gemischt, sodass beide Katalysatoren in einer Säule vorliegen. Die ursprünglichen 2 % DMF Ausbeute mit reinem aktivierten Kohlenstoff können somit auf 12 % gesteigert werden, da das Folgeprodukt EL hierbei vermieden wird und das Zwischenprodukt „HMF Derivat“ direkt zu DMF weiter reagieren kann. Dieses Ergebnis zeigt das Potential der „ein Reaktor Umsetzung“, weshalb eine kontinuierliche Durchflussreaktoranlage im Litermaßstab als Scale-Up des vorhergehenden Labormaßstabs realisiert wurde. Der 800 mm x 28.5 mm Reaktor bedient eine maximale Flussrate von 50 mL min-1, Drücke von 100 bar und Temperaturen bis zu  500 °C.
N2  - The valorization of carbohydrates is one of the most promising fields in green chemistry, as it enables to produce bulk chemicals and fuels out of renewable and abundant resources, instead of further exploiting fossil feedstocks. The focus in this thesis is the conversion of fructose, using dehydration and hydrodeoxygenation reactions. The main goal is to find an easy continuous process, including the solubility of the sugar in a green solvent, the conversion over a solid acid as well as over a metal@tungsten carbide catalyst. 
At the beginning of this thesis, solid acid catalysts are synthesized by using carbohydrate material like glucose and starch at high temperatures (up to 600 °C). Additionally a third carbon is synthesized, using an activation method based on Ca(OH)2. After carbonization and further sulfonation, using fuming sulfuric acid, the three resulting catalysts are characterized together with sulfonated carbon black and Amberlyst 15 as references. In order to test all solid acid catalysts in reaction, a 250 mm x 4.6 mm stainless steel column is used as a fixed-bed continuous reactor. The temperature (110 °C to 250 °C) and residence time (2 to 30 minutes) is varied, and a direct relationship between contact time and selectivity is determined. The reaction mechanism, as well as the product distribution is showing a dehydration step of fructose towards 5-hydroxymethylfurfural (HMF). These furan-ring molecules are considered as “sleeping giants”, due to the possibility of using them as fuel, but also for upgrading them to chemicals like terephthalic acid or p-xylene. Consecutive reactions are producing levulinic acid, as well as condensation products with ethanol and formic acid. The activated carbon is additionally showing a 2 % yield of 2,5-Dimethylfuran (DMF) production, pointing towards the extraordinary properties of this catalyst. Without a metal catalyst present, what is normally necessary for hydrogenation reactions, a transferhydrogenation (with formic acid) is observed. The active catalyst was therefore carbon itself, what activated the hydrogen on its surface. This phenomenon was just very rarely observed so far. Expensive noble metals are the material of choice, when it comes to hydrogenation reactions nowadays and cheaper alternatives are necessary.
By postulating a similar electronic structure of tungsten carbide (WC) to platinum by Lewy and Boudart, research is focusing on the replacement of Pt. The production of nano-sized tungsten carbide particles (7.5 ± 2.5 nm, 70 m2 g-1) is enabled by the so called “urea glass route” and its catalytic performances are compared to commercial material. It is shown, that the activity is strongly dependent on the size of the particles as well as the surface area. Nano-sized tungsten carbide is showing activity for hydrogenation reactions under mild conditions (maximum 150 °C, 30 bar). This material therefore opens up new possibilities for replacing the rare and expensive platinum with tungsten carbide based catalysts.  
Additionally different metal nanoparticles of palladium, copper and nickel are deposited on top of WC to further promote its reactivity. The nickel nanoparticles are strongly connected to WC and showed the best activity as well as selectivity for upgrading HMF with hydrodeoxygenation. The Ni@WC is not leaching and is showing very good hydrodeoxygenation properties with DMF yields up to 90 percent. Copper@WC is not showing good activity and palladium@WC enables undesired consecutive reactions, hydrogenating the furan ring system.
In order to enable the upgrade of fructose to DMF directly in a continuous system, the current H CUBE Pro TM hydrogenation system is customized with a second reaction column. A 250 mm x 4.6 mm stainless steel reactor column is connected ahead of the hydrogen insertion, enabling the dehydration of fructose to HMF derivatives, before pumping these products into the second column for hydrogenation. The overall residence time in the two column reactor system is 14 minutes. The overall results are an almost full conversion with a yield of 38.5 % DMF and 47 % yield of EL. The main disadvantage is the formation of higher mass products, so called humins, which start depositing on top of the catalysts, blocking their active sites. 
In general it can be stated, that a two column system goes along with a higher investment as well as more maintenance costs, compared to a one column catalytic approach. To develop a catalyst, which is on the one hand able to dehydrate as well as hydrodeoxygenate the reactants, is aimed for at the last part of the thesis. The activated carbon however shows already activity for hydrodeoxygenation without any metal present and offers itself therefore as an alternative to overcome the temperature instability of Amberlyst 15 (max. 120 °C) for a combined DMF production directly from fructose. The activity for the upgrade to DMF is increased from 2 % to 12 % DMF yield in one mixed continuous column.
In order to scale up the entire one column approach, an 800 mm x 28.5 mm inner diameter column was planned and manufactured. The system is scaled up and assembled, whereas this flow reactor system is able to be run with 50 mL min-1 maximum flow rate, to stand a pressure of maximum 100 bar and be heated to around 500 °C. The tubing and connections, as well as the used devices are planned according to be safe and easy in use. The scaled-up approach offers a reaction column 120 times bigger (510 ml) then the first extension of the commercial system. This further extension offers the possibility of ranging between 1 and 1000 mL min-1, making it possible to use the approach in pilot plant applications.
KW  - Biorefinery
KW  - Catalysis
KW  - Hydroxymethylfurfural
KW  - Upgrade of Fructose
KW  - Bioraffinerie
KW  - Katalyse
KW  - Hydroxymethylfurfural
KW  - Aufarbeitung von Fruktose
Y1  - 2017
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-410370
ER  - 
TY  - JOUR
A1  - Schwarze, Thomas
A1  - Mertens, Monique
A1  - Mueller, Peter
A1  - Riemer, Janine
A1  - Wessig, Pablo
A1  - Holdt, Hans-Jürgen
T1  - Highly K+-Selective Fluorescent Probes for Lifetime Sensing of K+ in Living Cells
JF  - Chemistry - a European journal
N2  - The new K+-selective fluorescent probes 1 and 2 were obtained by Cu-I-catalyzed 1,3-dipolar azide alkyne cycloaddition (CuAAC) reactions of an alkyne-substituted [1,3]dioxolo[4,5-f][1,3]benzodioxole (DBD) ester fluorophore with azido-functionalized N-phenylaza-18-crown-6 ether and N-(o-isopropoxy) phenylaza-18-crown-6 ether, respectively. Probes 1 and 2 allow the detection of K+ in the presence of Na+ in water by fluorescence enhancement (2.2 for 1 at 2000mm K+ and 2.5 for 2 at 160mm K+). Fluorescence lifetime measurements in the absence and presence of K+ revealed bi-exponential decay kinetics with similar lifetimes, however with different proportions changing the averaged fluorescence decay times ((f(av))). For 1 a decrease of (f(av)) from 12.4 to 9.3ns and for 2 an increase from 17.8 to 21.8ns was observed. Variation of the substituent in ortho position of the aniline unit of the N-phenylaza-18-crown-6 host permits the modulation of the K-d value for a certain K+ concentration. For example, substitution of H in 1 by the isopropoxy group (2) decreased the K-d value from >300mm to 10mm. 2 was chosen for studying the efflux of K+ from human red blood cells (RBC). Upon addition of the Ca2+ ionophor ionomycin to a RBC suspension in a buffer containing Ca2+, the fluorescence of 2 slightly rose within 10min, however, after 120min a significant increase was observed.
KW  - electron transfer
KW  - fluorescence lifetime
KW  - fluorescent probes
KW  - living cells
KW  - potassium
Y1  - 2017
U6  - https://doi.org/10.1002/chem.201704368
SN  - 0947-6539
SN  - 1521-3765
VL  - 23
SP  - 17186
EP  - 17190
PB  - Wiley-VCH
CY  - Weinheim
ER  - 
TY  - JOUR
A1  - Yang, Guang
A1  - Ding, Hong-ming
A1  - Kochovski, Zdravko
A1  - Hu, Rongting
A1  - Lu, Yan
A1  - Ma, Yu-qiang
A1  - Chen, Guosong
A1  - Jiang, Ming
T1  - Highly Ordered Self-Assembly of Native Proteins into 1D, 2D, and 3D Structures Modulated by the Tether Length of Assembly-Inducing Ligands
JF  - Angewandte Chemie : a journal of the Gesellschaft Deutscher Chemiker ; International edition
N2  - In nature, proteins self-assemble into various structures with different dimensions. To construct these nanostructures in laboratories, normally proteins with different symmetries are selected. However, most of these approaches are engineering-intensive and highly dependent on the accuracy of the protein design. Herein, we report that a simple native protein LecA assembles into one-dimensional nanoribbons and nanowires, two-dimensional nanosheets, and three-dimensional layered structures controlled mainly by small-molecule assembly-inducing ligands RnG (n = 1, 2, 3, 4, 5) with varying numbers of ethylene oxide repeating units. To understand the formation mechanism of the different morphologies controlled by the small-molecule structure, molecular simulations were performed from microscopic and mesoscopic view, which presented a clear relationship between the molecular structure of the ligands and the assembled patterns. These results introduce an easy strategy to control the assembly structure and dimension, which could shed light on controlled protein assembly.
KW  - carbohydrate-protein interactions
KW  - dual non-covalent interactions
KW  - molecular simulations
KW  - protein self-assembly
Y1  - 2017
U6  - https://doi.org/10.1002/anie.201703052
SN  - 1433-7851
SN  - 1521-3773
VL  - 56
SP  - 10691
EP  - 10695
PB  - Wiley-VCH
CY  - Weinheim
ER  - 
TY  - JOUR
A1  - Kleinpeter, Erich
A1  - Koch, Andreas
T1  - Identification of mesomeric substructures by through-space NMR shieldings (TSNMRS). Trimethine cyanine/merocyanine-like or aromatic pi-electron delocalization?
JF  - Tetrahedron
N2  - The spatial magnetic properties, through-space NMR shieldings (TSNMRS), of amino-substituted heteraromatic six-membered ring systems such as pyrylium/thiopyrylium analogues have been calculated using the GIAO perturbation method employing the nucleus independent chemical shift (NICS) concept and visualized as iso-chemical-shielding surfaces (ICSS) of various size and direction. The TSNMRS values were employed to quantify and visualize the existing aromaticity of the studied compounds. Due to strong conjugation of six-membered ring pi-electrons and lone pairs of the exo-cyclic amino substituents (restricted rotation about partial C,N double bonds) the interplay of still aromatic and already dominating trimethine cyanine/merocyanine-like substructures can be estimated. (C) 2017 Elsevier Ltd. All rights reserved.
KW  - Through-space NMR shieldings (TSNMRS)
KW  - GIAO
KW  - NICS
KW  - Benzenoid structures
KW  - Cyanine/merocyanine-like structures
KW  - Aromaticity
Y1  - 2017
U6  - https://doi.org/10.1016/j.tet.2017.05.062
SN  - 0040-4020
VL  - 73
SP  - 4265
EP  - 4274
PB  - Elsevier
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Haber-Pohlmeier, Sabina
A1  - Tötzke, Christian
A1  - Oswald, Sascha
A1  - Lehmann, Eberhard
A1  - Blümich, Bernhard
A1  - Pohlmeier, Andreas
T1  - Imaging of root zone processes using MRI T-1 mapping
JF  - Microporous and mesoporous materials : zeolites, clays, carbons and related materials
N2  - Noninvasive imaging in the root soil compartment is mandatory for improving knowledge about root soil interactions and uptake processes which eventually control crop growth and productivity. Here we propose a method of MRI T-1 relaxation mapping to investigate water uptake patterns, and as second example, in combination with neutron tomography (NT), property changes in the rhizosphere. The first part demonstrates quantification of solute enrichment by advective transport to the roots due to water uptake. This accumulation is counterbalanced by net downward flow and dispersive spreading. One can furthermore discriminate between zones of high accumulation patterns and zones with much less enrichment. This behavior persists over days. The second part presents the novel combination of MRI with neutron tomography to couple static, proton density information of roots and their interface to the surrounding soil with information about the local water dynamics, reflected by NMR relaxation times. The root soil interface of a broad bean plant is characterized by slightly increasing MRI and NT signal intensity but decreasing T-1 relaxation time indicating locally changed soil properties.
KW  - Low field MRI
KW  - Neutron tomography
KW  - Root zone processes
KW  - Solute transport
KW  - Quantification of contrast agent
KW  - T1 mapping
Y1  - 2017
U6  - https://doi.org/10.1016/j.micromeso.2017.10.046
SN  - 1387-1811
SN  - 1873-3093
VL  - 269
SP  - 43
EP  - 46
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Wade, Jessica
A1  - Wood, Sebastian
A1  - Collado-Fregoso, Elisa
A1  - Heeney, Martin
A1  - Durrant, James
A1  - Kim, Ji-Seon
T1  - Impact of Fullerene Intercalation on Structural and Thermal Properties of Organic Photovoltaic Blends
JF  - The journal of physical chemistry : C, Nanomaterials and interfaces
N2  - The performance of organic photovoltaic blend devices is critically dependent on the polymer:fullerene interface. These interfaces are expected to impact the structural and thermal properties of the polymer with regards to the conjugated backbone planarity and transition temperatures during annealing/cooling processes. Here, we report the impact of fullerene intercalation on structural and thermal properties of poly(2,5-bis(3-tetradecylthiophen-2-yOthieno[3,2-b]thiophene (PBTTT), a highly stable material known to exhibit liquid crystalline behavior. We undertake a detailed systematic study of the extent of intercalation in the PBTTT:fullerene blend, considering the use of four different fullerene derivatives and also varying the loading ratios. Resonant Raman spectroscopy allows morphology in situ during controlled heating and cooling. We find that small fullerene molecules readily intercalate into PBTTT crystallites, resulting in a planarization of the polymer backbone, but high fullerene loading ratios or larger fullerenes result in nonintercalated domains. During cooling from melt, nonintercalated blend films are found to return to their original morphology and reproduce all thermal transitions on cooling with minimal hysteresis. Intercalated blend films show significant hysteresis on cooling due to the crystallized fullerene attempting to reintercalate. The strongest hysteresis is for intercalated blend films with excess fullerene loading ratio, which form a distinct nanoribbon morphology and exhibit a reduced geminate recombination rate. These results reveal that careful consideration should be taken during device fabrication, as postdeposition thermal treatments significantly impact the charge generation and recombination dynamics.
Y1  - 2017
U6  - https://doi.org/10.1021/acs.jpcc.7b05893
SN  - 1932-7447
VL  - 121
SP  - 20976
EP  - 20985
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Kelly, Mary Allison
A1  - Roland, Steffen
A1  - Zhang, Qianqian
A1  - Lee, Youngmin
A1  - Kabius, Bernd
A1  - Wang, Qing
A1  - Gomez, Enrique D.
A1  - Neher, Dieter
A1  - You, Wei
T1  - Incorporating Fluorine Substitution into Conjugated Polymers for Solar Cells
BT  - three Different Means, Same Results
JF  - The journal of physical chemistry : C, Nanomaterials and interfaces
N2  - Fluorinating conjugated polymers is a proven strategy for creating high performance materials in polymer solar cells, yet few studies have investigated the importance of the fluorination method. We compare the performance of three fluorinated systems: a poly(benzodithieno-dithienyltriazole) (PBnDT-XTAZ) random copolymer where 50% of the acceptor units are difluorinated, PBnDT-mFTAZ where every acceptor unit is monofluorinated, and a 1:1 physical blend of the difluorinated and nonfluorinated polymer. All systems have the same degree of fluorination (50%) yet via different methods (chemically vs physically, random vs regular). We show that these three systems have equivalent photovoltaic behavior:,similar to 5.2% efficiency with a short-circuit current (J(sc)) at,similar to 11 mA cm(-2), an open-circuit voltage (v(oc)) at 0.77 V, and a fill factor (FF) of similar to 60%. Further investigation of these three systems demonstrates that the charge generation, charge extraction, and charge transfer state are essentially identical for the three studied systems. Transmission electron microscopy shows no significant differences in the morphologies. All these data illustrate that it is possible to improve performance not only via regular or random fluorination but also by physical addition via a ternary blend. Thus, our results demonstrate the versatility of incorporating fluorine in the active layer of polymer solar cells to enhance device performance.
Y1  - 2017
U6  - https://doi.org/10.1021/acs.jpcc.6b10993
SN  - 1932-7447
VL  - 121
IS  - 4
SP  - 2059
EP  - 2068
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Rumschöttel, Jens
A1  - Baus, Susann
A1  - Kosmella, Sabine
A1  - Appelhans, Dietmar
A1  - Koetz, Joachim
T1  - Incorporation of DNA/PEI polyplexes into gelatin/chitosan hydrogel scaffolds
BT  - a mu-DSC study
JF  - Composite interfaces
N2  - Polyplexes between a double-stranded Salmon DNA and hyperbranched poly(ethyleneimine) (PEI) as well as a maltosylated PEI-Mal were incorporated into a gelatin/chitosan hydrogel scaffold. Calorimetric experiments of the polyplexes show a decrease of the melting temperature in presence of PEI and a peak splitting in presence of PEI-Mal, which can be interpreted to a partial compaction of the DNA strands in presence of PEI-Mal. When the polyplexes are incorporated into a gelatin/chitosan scaffold in the swollen state, the DNA melting peaks at 90 and 93 degrees C, respectively, indicate in both cases the release of the DNA at the surface of the hydrogel scaffold in a more compact form. Specific interactions between the PEI-Mal shell and gelatin are responsible for the tuning of the release properties in presence of the maltose units in the hyperbranched PEI.
KW  - DNA-PEI polyplexes
KW  - maltosylated poly(ethyleneimine)
KW  - mu-DSC
KW  - DNA release
KW  - gelatin/chitosan hydrogel scaffold
Y1  - 2017
U6  - https://doi.org/10.1080/09276440.2017.1302725
SN  - 1568-5543
VL  - 25
IS  - 1
SP  - 1
EP  - 11
PB  - Routledge, Taylor & Francis Group
CY  - Abingdon
ER  - 
TY  - JOUR
A1  - Brunacci, Nadia
A1  - Wischke, Christian
A1  - Naolou, Toufik
A1  - Neffe, Axel T.
A1  - Lendlein, Andreas
T1  - Influence of surfactants on depsipeptide submicron particle formation
JF  - European Journal of Pharmaceutics and Biopharmaceutics
N2  - Surfactants are required for the formation and stabilization of hydrophobic polymeric particles in aqueous environment. In order to form submicron particles of varying sizes from oligo[3-(S)-sec-butylmorpholine-2,5-dione]diols ((OBMD)-diol), different surfactants were investigated. As new surfactants, four-armed star-shaped oligo(ethylene glycol)s of molecular weights of 5-20 kDa functionalized with desamino-tyrosine (sOEG-DAT) resulted in smaller particles with lower PDI than with desaminotyrosyl tyrosine (sOEG-DATT) in an emulsion/solvent evaporation method. In a second set of experiments, sOEG-DAT of M-n= 10 kDa was compared with the commonly employed emulsifiers polyvinylalcohol (PVA), polyoxyethylene (20) sorbitan monolaurate (Tween 20), and D-alpha-tocopherol polyethylene glycol succinate (VIT E-TPGS) for OBMD particle preparation. sOEG-DAT allowed to systematically change sizes in a range of 300 up to 900 nm with narrow polydispersity, while in the other cases, a lower size range (250-400 nm, PVA; 300 nm, Tween 20) or no effective particle formation was observed. The ability of tailoring particle size in a broad range makes sOEG-DAT of particular interest for the formation of oligodepsipeptide particles, which can further be investigated as drug carriers for controlled delivery. (C) 2016 Elsevier B.V. All rights reserved.
KW  - Depsipeptide
KW  - Particle size
KW  - Surfactants
KW  - Submicron particles
Y1  - 2017
U6  - https://doi.org/10.1016/j.ejpb.2016.11.011
SN  - 0939-6411
SN  - 1873-3441
VL  - 116
SP  - 61
EP  - 65
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - GEN
A1  - Enzenberg, Anne
A1  - Laschewsky, André
A1  - Boeffel, Christine
A1  - Wischerhoff, Erik
T1  - Influence of the near molecular vicinity on the temperature regulated fluorescence response of poly(N-vinylcaprolactam)
N2  - A series of new fluorescent dye bearing monomers, including glycomonomers, based on maleamide and maleic esteramide was synthesized. The dye monomers were incorporated by radical copolymerization into thermo-responsive poly(N-vinyl-caprolactam) that displays a lower critical solution temperature (LCST) in aqueous solution. The effects of the local molecular environment on the polymers' luminescence, in particular on the fluorescence intensity and the extent of solvatochromism, were investigated below as well as above the phase transition. By attaching substituents of varying size and polarity in the close vicinity of the fluorophore, and by varying the spacer groups connecting the dyes to the polymer backbone, we explored the underlying structure-property relationships, in order to establish rules for successful sensor designs, e.g., for molecular thermometers. Most importantly, spacer groups of sufficient length separating the fluorophore from the polymer backbone proved to be crucial for obtaining pronounced temperature regulated fluorescence responses.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 363 
KW  - thermo-responsive polymers
KW  - poly(N-vinylcaprolactam)
KW  - lower critical solution temperature
KW  - fluorescent dyemonomers
KW  - naphthalimide
KW  - solvatochromism
KW  - polymeric sensors
KW  - molecular thermometers
Y1  - 2017
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-400634
ER  - 
TY  - JOUR
A1  - Mondal, Suvendu Sekhar
A1  - Dey, Subarna
A1  - Attallah, Ahmed G.
A1  - Krause-Rehberg, Reinhard
A1  - Janiak, Christoph
A1  - Holdt, Hans-Jürgen
T1  - Insights into the pores of microwave-assisted metal-imidazolate frameworks showing enhanced gas sorption
JF  - Dalton transactions : a journal of inorganic chemistry, including bioinorganic, organometallic, and solid-state chemistry
N2  - Microwave heating (MW)-assisted synthesis has been widely applied as an alternative method for the chemical synthesis of organic and inorganic materials. In this work, we report MW-assisted synthesis of three isostructural 3D frameworks with a flexible linker arm of the chelating linker 2-substituted imidazolate- 4-amide-5-imidate, named IFP-7-MW (M = Zn, R = OMe), IFP-8-MW (M = Co; R = OMe) and IFP-10-MW (M = Co; R = OEt) (IFP = Imidazolate Framework Potsdam). These chelating ligands were generated in situ by partial hydrolysis of 2-substituted 4,5-dicyanoimidazoles under MW-and also conventional electrical heating (CE)-assisted conditions in DMF. The structure of these materials was determined by IR spectroscopy and powder X-ray diffraction (PXRD) and the identity of the materials synthesized under CE-conditions was established. Materials obtained from MW-heating show many fold enhancement of CO2 and H-2 uptake capacities, compared to the analogous CE-heating method based materials. To understand the inner pore-sizes of IFP structures and variations of gas sorptions, we performed positron annihilation lifetime spectroscopy (PALS), which shows that MW-assisted materials have smaller pore sizes than materials synthesized under CE-conditions. The "kinetically controlled" MW-synthesized material has an inherent ability to trap extra linkers, thereby reducing the pore sizes of CE-materials to ultra/micropores. These ultramicropores are responsible for high gas sorption.
Y1  - 2017
U6  - https://doi.org/10.1039/c7dt00350a
SN  - 1477-9226
SN  - 1477-9234
VL  - 46
SP  - 4824
EP  - 4833
PB  - Royal Society of Chemistry
CY  - Cambridge
ER  - 
TY  - JOUR
A1  - Bauch, Marcel
A1  - Klaper, Matthias
A1  - Linker, Torsten
T1  - Intermediates in the cleavage of endoperoxides
JF  - Journal of physical organic chemistry
N2  - The decomposition of anthracene endoperoxides has been investigated under various conditions. Thermolyses proceed via radical intermediates and afford anthracenes and rearrangement products, depending on the substitution pattern. Interestingly, not only the O-O but also the C-O bond can be cleaved homolytically. Under basic conditions fragmentations take place, affording anthraquinone, and reactive oxygen species. This mechanism explains the often observed decomposition of endoperoxides during work-up. Finally, an acid-catalyzed cleavage has been observed under release of hydrogen peroxide. The results should be interesting for the mechanistic understanding of peroxide decomposition and the endoperoxides might serve as mild sources of reactive oxygen species for future applications. Copyright (C) 2016 John Wiley & Sons, Ltd.
KW  - peroxides
KW  - radicals
KW  - reaction mechanism
KW  - reactive intermediates
Y1  - 2017
U6  - https://doi.org/10.1002/poc.3607
SN  - 0894-3230
SN  - 1099-1395
VL  - 30
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Armin, Ardalan
A1  - Durrant, James R.
A1  - Shoaee, Safa
T1  - Interplay Between Triplet-, Singlet-Charge Transfer States and Free Charge Carriers Defining Bimolecular Recombination Rate Constant of Organic Solar Cells
JF  - The journal of physical chemistry : C, Nanomaterials and interfaces
N2  - Despite the myriad of organic donor:acceptor materials, only few systems have emerged in the life of organic solar cells to, exhibit considerable reduced bimolecular recombination, with respect to the random encounter rate given by the Langevin equation. Monte Carlo simulations have revealed that the rate constant of the formation of electron-hole bound states depends on the random encounter of opposite charges and is nearly given by the Langevin equation for the domain sizes relevant to efficient bulk heterojunction systems. Recently, three studies :suggested that charge transfer states dissociating much faster than their decay rate to the ground state, can result in reduced bimolecular recombination by lowering the recombination rate to the ground state as a loss pathway. A separate study identified another loss pathway and suggested that forbidden back electron transfer from triplet charge transfer states to triplet excitons is a key to achieving reduced recombination. Herein we further explain the reduced bimolecular recombination by investigating the limitations of these two proposals. By solving kinetic rate equations for a BHJ system with realistic rates, we show that both of these previously presented conditions must only be held at the same time fora system to exhibit non-Langevin behavior. We demonstrate that suppression of both of the parallel loss channels of singlet and triplet states can be achieved through increasing the dissociation rate of the charge transfer states; a crucial requirement to achieve a high charge carrier extraction efficiency.
Y1  - 2017
U6  - https://doi.org/10.1021/acs.jpcc.7b04825
SN  - 1932-7447
VL  - 121
SP  - 13969
EP  - 13976
PB  - American Chemical Society
CY  - Washington
ER  -