TY  - JOUR
A1  - Zühlke, Martin
A1  - Zenichowski, Karl
A1  - Riebe, Daniel
A1  - Beitz, Toralf
A1  - Löhmannsröben, Hans-Gerd
T1  - Subambient pressure electrospray ionization ion mobility spectrometry
JF  - International journal for ion mobility spectrometry : official publication of the International Society for Ion Mobility Spectrometry
N2  - The pressure dependence of sheath gas assisted electrospray ionization (ESI) was investigated based on two complementary experimental setups, namely an ESI-ion mobility (IM) spectrometer and an ESI capillary - Faraday plate setup housed in an optically accessible vacuum chamber. The ESI-IM spectrometer is capable of working in the pressure range between 300 and 1000 mbar. Another aim was the assessment of the analytical capabilities of a subambient pressure ESI-IM spectrometer. The pressure dependence of ESI was characterized by imaging the electrospray and recording current-voltage (I-U) curves. Qualitatively different behavior was observed in both setups. While the current rises continuously with the voltage in the capillary-plate setup, a sharp increase of the current was measured in the IM spectrometer above a pressure-dependent threshold voltage. The different character can be attributed to the detection of different species in both experiments. In the capillary-plate experiment, a multitude of charged species are detected while only desolvated ions attribute to the IM spectrometer signal. This finding demonstrates the utility of IM spectrometry for the characterization of ESI, since in contrast to the capillary-plate setup, the release of ions from the electrospray droplets can be observed. The I-U curves change significantly with pressure. An important result is the reduction of the maximum current with decreasing pressure. The connected loss of ionization efficiency can be compensated by a more efficient transfer of ions in the IM spectrometer at increased E/N. Thus, similar limits of detection could be obtained at 500 mbar and 1 bar.
KW  - Ion mobility spectrometry
KW  - Electrospray ionization
KW  - Subambient pressure
KW  - Imaging
Y1  - 2017
U6  - https://doi.org/10.1007/s12127-017-0215-x
SN  - 1435-6163
SN  - 1865-4584
VL  - 20
SP  - 47
EP  - 56
PB  - Springer
CY  - Heidelberg
ER  - 
TY  - JOUR
A1  - Villatoro, José Andrés
A1  - Zühlke, Martin
A1  - Riebe, Daniel
A1  - Beitz, Toralf
A1  - Weber, Marcus
A1  - Riedel, Jens
A1  - Löhmannsröben, Hans-Gerd
T1  - IR-MALDI ion mobility spectrometry: physical source characterization and application as HPLC detector
JF  - International journal for ion mobility spectrometry : official publication of the International Society for Ion Mobility Spectrometry
N2  - Infrared matrix-assisted laser dispersion and ionization (IR-MALDI) in combination with ion mobility (IM) spectrometry enables the direct analysis of biomolecules in aqueous solution. The release of ions directly from an aqueous solution is based on a phase explosion, induced by the absorption of an IR laser pulse, which disperses the liquid as vapor, nano-and micro-droplets. The ionization process is characterized initially by a broad spatial distribution of the ions, which is a result of complex fluid dynamics and desolvation kinetics. These processes have a profound effect on the shape and width of the peaks in the IM spectra. In this work, the transport of ions by the phase explosion-induced shockwave could be studied independently from the transport by the electric field. The shockwave-induced mean velocities of the ions at different time scales were determined through IM spectrometry and shadowgraphy. The results show a deceleration of the ions from 118 m.s(-1) at a distance of 400 mu m from the liquid surface to 7.1 m.s(-1) at a distance of 10 mm, which is caused by a pile-up effect. Furthermore, the desolvation kinetics were investigated and a first-order desolvation constant of 325 +/- 50 s(-1) was obtained. In the second part, the IR-MALDI-IM spectrometer is used as an HPLC detector for the two-dimensional separation of a pesticide mixture.
KW  - Ion mobility spectrometry
KW  - IR-MALDI
KW  - Shadowgraphy
KW  - Laser
KW  - Imaging
KW  - HPLC
Y1  - 2016
U6  - https://doi.org/10.1007/s12127-016-0208-1
SN  - 1435-6163
SN  - 1865-4584
VL  - 19
SP  - 197
EP  - 207
PB  - Springer
CY  - Heidelberg
ER  - 
TY  - JOUR
A1  - Hildebrandt, Niko
A1  - Geissler, Daniel
ED  - Zahavy, E
ED  - Ordentlich, A
ED  - Yitzhaki, S
ED  - Shafferman, A
T1  - Semiconductor quantum dots as FRET acceptors for multiplexed diagnostics and molecular ruler application
JF  - Advances in Experimental Medicine and Biology
N2  - Applications based on Forster resonance energy transfer (FRET) play an important role for the determination of concentrations and distances within nanometer-scale systems in vitro and in vivo in many fields of biotechnology. Semiconductor nanocrystals (Quantum dots - QDs) possess ideal properties for their application as FRET acceptors when the donors have long excited state lifetimes and when direct excitation of QDs can be efficiently suppressed. Therefore, luminescent terbium complexes (LTCs) with excited state lifetimes of more than 2 ms are ideal FRET donor candidates for QD-acceptors. This chapter will give a short overview of theoretical and practical background of FRET, QDs and LTCs, and present some recent applications of LTC-QD FRET pairs for multiplexed ultra-sensitive in vitro diagnostics and nanometer-resolution molecular distance measurements.
KW  - Diagnostics
KW  - FRET
KW  - Imaging
KW  - Quantum dots
KW  - Terbium
Y1  - 2012
SN  - 978-94-007-2554-6
SN  - 978-94-007-2555-3
U6  - https://doi.org/10.1007/978-94-007-2555-3_8
SN  - 0065-2598
VL  - 733
SP  - 75
EP  - 86
PB  - Springer
CY  - Dordrecht
ER  -