| 2251 - 2252 |
Dedication
Foret F, Gas B |
| 2253 - 2254 |
Special Issue: Celebrating Professor Ziad El Rassi's 70th Birthday and His 25 Years of Dedication to Electrophoresis
Lapizco-Encinas BH, Watzig H |
| 2256 - 2262 |
Photochemical and photocatalytic degradation of 1-propanol using UV/H2O2: Identification of malonate as byproduct
Santos MSF, Cordeiro TG, Cieslarova Z, Gutz IGR, Garcia CD |
| 2263 - 2270 |
Microfabricated liquid junction hybrid capillary electrophoresis-mass spectrometry interface for fully automated operation
Krenkova J, Kleparnik K, Luksch J, Foret F |
| 2271 - 2276 |
Immobilizing sulfotransferase 1A1 on magnetic microparticles and their evaluation using capillary electrophoresis
Ramana P, Adams E, Augustijns P, Van Schepdael A |
| 2277 - 2284 |
Implementation of at-line capillary zone electrophoresis for fast and reliable determination of adenovirus concentrations in vaccine manufacturing
van Tricht E, Geurink L, Garre FG, Schenning M, Backus H, Germano M, Somsen GW, Sanger-van de Griend CE |
| 2285 - 2293 |
Quantitative analysis of microcystin variants by capillary electrophoresis mass spectrometry with dynamic pH barrage junction focusing
Yan P, Zhang KK, Wang LY, Tong WJ, Chen DDY |
| 2294 - 2308 |
Peptidomics and proteomics based on CE-MS as a robust tool in clinical application: The past, the present, and the future
Latosinska A, Siwy J, Mischak H, Frantzi M |
| 2309 - 2320 |
Assessing the suitability of capillary electrophoresis-mass spectrometry for biomarker discovery in plasma-based metabolomics
Zhang W, Segers K, Mangelings D, Van Eeckhaut A, Hankemeier T, Vander Heyden Y, Ramautar R |
| 2321 - 2328 |
Affinity capillary electrophoresis employed for determination of stability constants of antamanide complexes with univalent and divalent cations in methanol
Pangavhane S, Makrlik E, Ruzza P, Kasicka V |
| 2329 - 2335 |
Gel electrophoresis in combination with laser ablation-inductively coupled plasma mass spectrometry to quantify the interaction of cisplatin with human serum albumin
Sullivan MP, Morrow SJ, Goldstone DC, Hartinger CG |
| 2336 - 2341 |
Graphene quantum dots for enhancement of fluorimetric detection coupled to capillary electrophoresis for detection of ofloxacin
Lahouidak S, Soriano ML, Salghi R, Zougagh M, Rios A |
| 2349 - 2359 |
CE-MS for anionic metabolic profiling: An overview of methodological developments
van Mever M, Hankemeier T, Ramautar R |
| 2361 - 2374 |
CE-SDS method development, validation, and best practice-An overview
Sanger-van de Griend CE |
| 2375 - 2381 |
Capillary electrophoresis-based enzyme assays for beta-lactamase enzymes
Chen CY, Kramer JS, Brunst S, Proschak E, Scriba GKE |
| 2382 - 2389 |
Design of experiments as a valuable tool for biopharmaceutical analysis with (imaged) capillary isoelectric focusing
Kahle J, Stein M, Watzig H |
| 2390 - 2397 |
Optimization of background electrolyte composition for simultaneous contactless conductivity and fluorescence detection in capillary electrophoresis of biological samples
Lacna J, Prikryl J, Teshima N, Murakami H, Esaka Y, Foret F, Kuban P |
| 2398 - 2406 |
In-line coupling of supported liquid membrane extraction across nanofibrous membrane to capillary electrophoresis for analysis of basic drugs from undiluted body fluids
Dvorak M, Kuban P |
| 2407 - 2414 |
The lift force on a charged sphere that translates and rotates in an electrolyte
Khair AS, Balu B |
| 2415 - 2419 |
Retention prediction using quantitative structure-retention relationships combined with the hydrophobic subtraction model in reversed-phase liquid chromatography
Wen YB, Amos RIJ, Talebi M, Szucs R, Dolan JW, Pohl CA, Haddad PR |
| 2420 - 2437 |
Some thoughts about enantioseparations in capillary electrophoresis
Fanali S, Chankvetadze B |
| 2438 - 2461 |
Functionalized gold nanoparticles for sample preparation: A review
Liu SY, Lammerhofer M |
| 2463 - 2468 |
Analyte focusing by micelle collapse for liquid extraction surface analysis coupled with capillary electrophoresis of neutral analytes on a solid surface
Jeong S, Shakerian F, Chung DS |
| 2469 - 2477 |
Epinephrine-modified methacrylate monolithic column with fumed silica nanoparticle for pressurized capillary electrochromatography
Pan H, Liu RD, Cheddah S, Zheng YT, Hu J, Wang WW, Wang Y, Yan C |
| 2478 - 2483 |
On-line sample preconcentration by polarity switching in floating electrode-integrated microchannel
Kitagawa F, Tanigawa-Joh K, Terashita S, Fujiki R, Nukatsuka I, Sueyoshi K, Otsuka K |
| 2484 - 2513 |
Recent advances in direct current electrokinetic manipulation of particles for microfluidic applications
Xuan XC |
| 2514 - 2521 |
On-chip electromembrane extraction of acidic drugs
Roman-Hidalgo C, Santigosa-Murillo E, Ramos-Payan M, Petersen NJ, Kutter JP, Pedersen-Bjergaard S |
| 2522 - 2529 |
Continuous flow microfluidic cell inactivation with the use of insulating micropillars for multiple electroporation zones
Pudasaini S, Perera ATK, Das D, Ng SH, Yang C |
| 2553 - 2564 |
Ideal-filter capillary electrophoresis: A highly efficient partitioning method for selection of protein binders from oligonucleotide libraries
Le ATH, Krylova SM, Krylov SN |
| 2575 - 2583 |
Limitations of the Clausius-Mossotti function used in dielectrophoresis and electrical impedance studies of biomacromolecules
Pethig R |
| 2584 - 2591 |
Electrophoretic transport and dynamic deformation of bio-vesicles
Morshed A, Dutta P, Kim MJ |
| 2592 - 2600 |
The feasibility of using dielectrophoresis for isolation of glioblastoma subpopulations with increased stemness
Alinezhadbalalami N, Douglas TA, Balani N, Verbridge SS, Davalos RV |
| 2610 - 2617 |
Carrier ampholyte-free free-flow isoelectric focusing for separation of protein
Wang S, Zhang LY, Sun HF, Chu ZY, Chen HH, Zhao YM, Zhang WB |
| 2618 - 2624 |
A fresh look into background electrolyte selection for capillary electrophoresis-laser induced fluorescence of peptides and proteins
Morani M, Taverna M, Mai TD |
