As a rule, the Working Group Separation Science awards the Ernst Bayer Prize to a young scientist every year as part of its doctoral seminar in Hohenroda. The award, endowed with an award certificate and 1000 euros, honors an outstanding article in the field of analytical separation techniques that has already appeared in an international journal with a review system or has been accepted for publication. Both nominations and applications are possible. Candidates: should not have exceeded the age of 30 years; the completion of the doctorate should be less than a year ago. A jury appointed by the working group Board decides on the awarding of the prizes; the decisive selection criterion is the scientific quality of the article.
Submission deadline: October 15, 2022
The Working Group Separation Science of the GDCh Division of Analytical Chemistry usually awards the Ernst Bayer Prize every year to honor an outstanding publication by young scientists in the field of analytical separation techniques.
The award is associated with a certificate, prize money of 1000 euros and participation in the 33rd PhD seminar of the working group, which will take place from January 8th to 10th, 2023 in Hohenroda. The awardee will present the award-winning publication in a short presentation as part of the seminar. A panel of experts appointed by the working group- Board of directors decides on the award of the prize; the decisive selection criterion is the scientific quality of the submitted work.
Both nominations and applications are possible. The prize is open to all first authors of a publication that was published or accepted in an international scientific journal with a referee system in 2021 or 2022, who are under the age of 30 and who completed their doctorate no more than a year ago . The application must clearly state which individual publication is being proposed for the award. All suggestions contain a short recommendation or appreciation of the article, a CV (including contact details) and the publication itself.
Please send your proposal electronically and summarized in a PDF file (max. 10 MB) to Dr. Martin Vogel, the chairman of the separation science working group.
|2021||MSc Nora T Hartner|
On-Line Coupling of Chip Electrochromatography and Ion Mobility Spectrometry
|2020|| dr Patrick Olaf
Mass spectrometric investigation of cardiolipins and their oxidation products after two-dimensional heart-cut liquid chromatography
High-resolution high performance liquid chromatography: Application of a saw tooth gradient for the separation of various polymers
Imaging Peptide and Protein Chirality via Amino Acid Analysis by Chiral x Chiral Two-Dimensional Correlation Liquid Chromatography
|2016||MSc Carsten Lotter|
HPLC-MS with Glass Chips Featuring Monolithically Integrated Electrospray Emitters of Different Geometries
Universal Route to Polycyclic Aromatic Hydrocarbon Analysis in Foodstuff: Two-Dimensional Heart Cut Liquid Chromatography-Gas Chromatography-Mass-Spectrometry
|2014||dr Pablo A Kler|| Non-aqueous electrolytes for isotachophoresis of weak bases and its application to the comprehensive preconcentration of the 20 proteinogenic amino acids in column-coupling ITP/CE-MS|
Analytical & Bioanalytical Chemistry 2014, 406, 7163-7174
|2013||dr Andrea Francesco Giuseppe Gargano|
Mixed-mode chromatography with zwitterionic phosphopeptidomimetic selectors from Ugi multicomponent reaction
When Other Separation Techniques Fail: Compound-Specific Carbon Isotope Ratio Analysis of Sulfonamide Containing Pharmaceuticals by High-Temperature-Liquid Chromatography-Isotope Ratio Mass Spectrometry
Plasmid DNA manufacturing: Topology-selective chromatography reveals plasmid supercoiling shifts during fermentation and allows rapid and efficient preparation of topoisomers
Chip Electrophoresis with Mass Spectrometric Detection in Record Speed
Repeatability of peptide identifications in shotgun proteome analysis employing off-line two-dimensional chromatographic separations and ion-trap MS
Generation and Identification of Reactive Metabolites by Electrochemistry and Immobilized Enzymes Coupled On-Line to Liquid Chromatography/Mass Spectrometry
Key to Analyte Migration and Retention in Electrochromatography
|2006||Pavel A Levkin|
Combining the Enantioselectivities of L-Valine Diamide and Permethylated ß-Cyclodextrin in One Gas Chromatographic Chiral Stationary Phase
|2005||Suzanna Maria van Leuwen|
Prediction of clozapine metabolism by on-line electrochemistry/liquid chromatography/mass spectrometry
Liquid chromatography-electrospray ioniosation-mass spectrometry based method for the simultaneous determination of algal and cyanobacterial toxins phytoplankton from marine waters and lakes followed by tentative structural elucidation of microcystins
|2003||Felix C. Leinweber|
Chromatographic performance of monolithic and particulate stationary phases. Hydrodynamics and adsorption capacity
last modified: 14.07.2021 13:29 H from N/A