Johan Sjödahl scite author profile

Two novel types of micromachined nanoelectrospray emitter tips have been designed, fabricated and tested. The fabrication method of the hollow tips is based on a self-aligning deep reactive ion etch process. The tips consist of either silicon dioxide or silicon and feature orifice diameters of 10 and 18 μm, respectively. The geometrical characteristics of both emitter types are favorable for the generation of stable electrospray ionization, i.e. wetting of the tip shaft is avoided and the base of the Taylor cone is limited to the diameter of the orifice. A silicon dioxide tip was operated in a bench top setup to visually evaluate the electrospray. Both types of tips were also successfully used for the analysis of an insulin sample in an ion trap mass spectrometer.

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Characterization of micromachined hollow tips for two‐dimensional nanoelectrospray mass spectrometry

Sjödahl

Melin

Griss

et al. 2003

Rapid Comm Mass Spectrometry

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In this work an improved design of chip-based nanoelectrospray nozzles is reported. Two-dimensional matrices of out-of-plane 10 microm i.d. silicon dioxide tips with a tapered shape were manufactured using deep reactive ion etching technology. Using a peptide sample, six micromachined tips and six commercially pulled silica capillary tips were compared employing an ion trap mass spectrometer. At a flow rate of 100 nL/min, the detectability obtained was approximately the same for the two types of tips. The relative standard deviation of the signal-to-noise ratio for the peptides between six different tips was on average 22% for the micromachined tips and 45% for the pulled capillary tips. The usefulness of the micromachined tips for analysis of non-covalent protein-ligand complexes was demonstrated by the analysis of a sample of RNase A and cytidine 2'-monophosphate. In another test, analyzing a tryptic digest of 1 pmol/microL cytochrome C, 18 peptides corresponding to a 82% sequence coverage were detected. Using MS/MS, the whole sequence of an 11 amino acid cytochrome C fragment was obtained. Computer simulations were performed on the shape and magnitude of the electrical field around micromachined and pulled capillary tips. To reach the threshold electric field density at the tip apex required to initiate an electrospray, a higher electrospray voltage was needed for the chip-based tips compared with pulled capillary tips. This is due to the influence of the chip base.

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Non-contact protein microarray fabrication using a procedure based on liquid bridge formation

et al. 2008

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Contemporary microarrayers of contact or non-contact format used in protein microarray fabrication still suffer from a number of problems, e.g. generation of satellite spots, inhomogeneous spots, misplaced or even absent spots, and sample carryover. In this paper, a new concept of non-contact sample deposition that reduces such problems is introduced. To show the potential and robustness of this pressure-assisted deposition technique, different sample solutions known to cause severe problems or to be even impossible to print with conventional microarrayers were accurately printed. The samples included 200 mg mL(-1) human serum albumin, highly concentrated sticky cell adhesion proteins, pure high-salt cell-lysis buffer, pure DMSO, and a suspension of 5-microm polystyrene beads. Additionally, a water-immiscible liquid fluorocarbon, which was shown not to affect the functionality of the capture molecules, was employed as a lid to reduce evaporation during microarray printing. The fluorocarbon liquid lid was shown to circumvent hydrolysis of water-sensitive activated surfaces during long-term deposition procedures.

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Chip with Twin Anchors for Reduced Ion Suppression and Improved Mass Accuracy in MALDI-TOF Mass Spectrometry

et al. 2005

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A new sample target for matrix-assisted laser desorption/ionization mass spectrometry is described. The target consists of pairs of elevated hydrophilic anchor surfaces, positioned in proximity onto a microchip. The anchors are used to obtain separate preparations of sample and external standard, while both anchor surfaces are irradiated simultaneously by the laser pulse. Using a standard, based on six peptides, a 2-fold improvement in mass accuracy is observed. Also, ion suppression is significantly reduced. With a one peptide calibration standard, 22 tryptic fragments from a BSA digest are detected using the twin-anchor concept, whereas only 14 fragments are detected when the sample and standard are laser-ablated as a mixture from a conventional anchor target. A volume of approximately 30 pL of sample solution of angiotensin I is transferred to the anchor surface, under a thin layer of a perfluorocarbon, to prevent a concentration bias due to evaporation. With this arrangement, a detection limit of 1.5 amol was achieved with a signal-to-noise ratio of 22:1.

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Johan Sjödahl

Characterization of proteinases from Antarctic krill (Euphausia superba)

Development of micromachined hollow tips for protein analysis based on nanoelectrospray ionization mass spectrometry

Characterization of micromachined hollow tips for two‐dimensional nanoelectrospray mass spectrometry

Non-contact protein microarray fabrication using a procedure based on liquid bridge formation

Chip with Twin Anchors for Reduced Ion Suppression and Improved Mass Accuracy in MALDI-TOF Mass Spectrometry

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