1.         Psota, V., et al., Relationship between starch granule size distribution and selected
malting parameters. Journal of the American Society of Brewing Chemists, 2008. 66(3): p. 162-166.

2.         Park, M.R., et al., Different elution modes and field programming in gravitational
field-flow fractionation. Effect of channel angle. Journal of Chromatography A, 2008. 1209(1-2): p.
206-211.

3.         Cabalkova, J., et al., Size, shape and surface morphology of starch granules from Norway
spruce needles revealed by transmission electron microscopy and atomic force microscopy: effects of
elevated CO2 concentration. Tree Physiology, 2008. 28(10): p. 1593-1599.

4.         Chmelík, J., et al., Relationship between the ratio of large and small starch granules
determined by gravitational field-flow fractionation and malting quality of barley varieties.
Journal of Liquid Chromatography and Related Technologies, 2007. 30(9-10): p. 1289-1301.

5.         Chmelik, J., Applications of field-flow fractionation in proteomics: Presence and
future. Proteomics, 2007. 7(16): p. 2719-2728.

6.         Cabalkova, J., K.G. Wahlund, and J. Chmelik, Complex analytical approach to
characterization of the influence of carbon dioxide concentration on carbohydrate composition in
Norway spruce needles. Journal of Chromatography A, 2007. 1148(2): p. 189-199.

7.         Plocková, J. and J. Chmelík, Different elution modes and field programming in
gravitational field-flow fractionation: Field programming using density and viscosity gradients.
Journal of Chromatography A, 2006. 1118(2): p. 253-260.

8.         Bohacenko, I., J. Chmelik, and V. Psota, Determination of the contents of A- and
B-starches in barley using low angle laser light scattering. Czech Journal of Food Sciences, 2006.
24(1): p. 11-18.

9.         Chmelik, J., Proteomic guide. Chemicke Listy, 2005. 99(12): p. 883-885.

10.        Reschiglian, P., et al., Size characterization of barley starch granules by
gravitational field-flow fractionation: A rapid, low-cost method to assess the brewing capability
of different strains. Annali Di Chimica, 2002. 92(4): p. 457-467.

11.        Psota, V., et al., Comparison of the GFFF and LALLS methods for the measurement of
starch granule size distribution in spring barley caryopses. Journal of the Institute of Brewing,
2002. 108(2): p. 200-203.

12.        Plocková, J., F. Matulík, and J. Chmelík, Different elution modes and field programming
in gravitational field-flow fractionation: IV. Field programming achieved with channels of
non-constant cross-sections. Journal of Chromatography A, 2002. 955(1): p. 95-103.

13.        Plocková, J. and J. Chmelík, Different elution modes and field programming in
gravitational field-flow fractionation - III. Field programming by flow-rate gradient generated by
a programmable pump. Journal of Chromatography A, 2001. 918(2): p. 361-370.

14.        Janoušková, J., et al., Optimization of experimental conditions for the separation of
small and large starch granules by gravitational field-flow fractionation. Journal of
Chromatography A, 2001. 914(1-2): p. 183-187.

15.        Chmelík, J., et al., Comparison of size characterization of barley starch granules
determined by electron and optical microscopy, low angle laser light scattering and gravitational
field-flow fractionation. Journal of the Institute of Brewing, 2001. 107(1): p. 11-17.

16.        Plocková, J. and J. Chmelík, Different elution modes and field programming in
gravitational field-flow fractionation. 2. Experimental verification of the range of conditions for
flow-rate and carrier liquid density programming. Journal of Chromatography A, 2000. 868(2): p.
217-227.

17.        Chmelik, J., Measurement of properties of macromolecules and particles by field-flow
fractionation. Chemicke Listy, 1999. 93(11): p. 670-677.

18.        Chmelik, J., Different elution modes and field programming in gravitational field-flow
fractionation I. A theoretical approach. Journal of Chromatography A, 1999. 845(1-2): p. 285-291.

19.        Chmelik, J., A. Krumlova, and J. Caslavsky, Characterization of starch materials from
barley by gravitational field-flow fractionation and matrix-assisted laser desorption/ionization
mass spectrometry. Chemical Papers, 1998. 52: p. 360-361.

20.        Urbánková, E. and J. Chmelík, Influence of density of zeolite particles on their
retention in gravitational field-flow fractionation. Journal of Liquid Chromatography and Related
Technologies, 1997. 20(16-17): p. 2637-2646.

21.        Pazourek, J. and J. Chmelík, Characterization of chromatographic silica gel support
particles by gravitational field-flow fractionation. Journal of Microcolumn Separations, 1997.
9(8): p. 611-617.

22.        Urbánková, E., A. Vacek, and J. Chmelík, Micropreparation of hemopoietic stem cells from
the mouse bone marrow suspension by gravitational field-flow fractionation. Journal of
Chromatography B: Biomedical Applications, 1996. 687(2): p. 449-452.

23.        Pazourek, J., K.G. Wahlund, and J. Chmelík, Effect of Flowrate and Ionic Strength on
Retention of Nonporous Micron-Sized Silica Gel Particles in Gravitational Field-Flow Fractionation.
Journal of Microcolumn Separations, 1996. 8(5): p. 331-338.

24.        Chmelik, J., Fifth International Symposium on Field-Flow Fractionation, Park City, Utah,
USA, July 9-12, 1995. Chemicke Listy, 1996. 90(6): p. 408-408.

25.        Pospichal, J., J. Chmelik, and M. Deml, MICROPREPARATIVE FOCUSING OF PROTEINS IN
CARRIER-AMPHOLYTE-FREE SOLUTION WITH ELECTRICALLY CONTROLLED COMPOSITIONS OF ELECTROLYTES. Journal
of Microcolumn Separations, 1995. 7(3): p. 213-219.

26.        Pazourek, J. and J. Chmelik, Experimental study on the separation of silica gel supports
by gravitational field-flow fractionation. II. Sample preparation, stop-flow procedure and
overloading effect. Journal of Chromatography A, 1995. 715(2): p. 259-265.

27.        Plocek, J., P. Konecny, and J. Chmelik, MODIFICATION OF GLASS CHANNEL WALLS FOR
SEPARATION OF BIOLOGICAL PARTICLES BY GRAVITATIONAL FIELD-FLOW FRACTIONATION. Journal of
Chromatography B-Biomedical Applications, 1994. 656(2): p. 427-431.

28.        Pazourek, J., E. Urbankova, and J. Chmelik, EXPERIMENTAL-STUDY ON THE SEPARATION OF
SILICA-GEL SUPPORTS BY GRAVITATIONAL FIELD-FLOW FRACTIONATION. Journal of Chromatography A, 1994.
660(1-2): p. 113-118.

29.        Caslavska, J., et al., BEHAVIOR OF SUBSTITUTED AMINOMETHYLPHENOL DYES IN CAPILLARY
ISOELECTRIC-FOCUSING WITH ELECTROOSMOTIC ZONE DISPLACEMENT. Journal of Chromatography A, 1994.
680(2): p. 549-559.

30.        Pazourek, J. and J. Chmelik, Optimization of the separation of micron-sized latex
particles by gravitational field-flow fractionation. Chromatographia, 1993. 35(9-12): p. 591-596.

31.        Pazourek, J., et al., Rapid separation of micron-sized particles by field-flow
fractionation using earth's gravitational field. Separation Science and Technology, 1993. 28(10):
p. 1859-1873.

32.        Chmelik, J. and W. Thormann, ISOELECTRIC-FOCUSING FIELD-FLOW FRACTIONATION AND CAPILLARY
ISOELECTRIC-FOCUSING WITH ELECTROOSMOTIC ZONE DISPLACEMENT - 2 APPROACHES TO PROTEIN-ANALYSIS IN
FLOWING STREAMS. Journal of Chromatography, 1993. 632(1-2): p. 229-234.

33.        Urbankova, E., et al., INVESTIGATION OF RED-BLOOD-CELL FRACTIONATION BY GRAVITATIONAL
FIELD-FLOW FRACTIONATION. Journal of Chromatography-Biomedical Applications, 1992. 583(1): p.
27-34.

34.        Pazourek, J. and J. Chmelik, Simple solution of velocity profiles of laminar flows in
channels of various cross-sections used in field-flow fractionation. Journal of Chromatography,
1992. 593(1-2): p. 357-362.

35.        Chmelik, J. and W. Thormann, ISOELECTRIC-FOCUSING FIELD-FLOW FRACTIONATION .4.
INVESTIGATIONS ON PROTEIN SEPARATIONS IN THE TRAPEZOIDAL CROSS-SECTION CHANNEL. Journal of
Chromatography, 1992. 600(2): p. 305-311.

36.        Janca, J., et al., PRINCIPLE, THEORY AND APPLICATIONS OF FOCUSING FIELD-FLOW
FRACTIONATION. Chemia Analityczna, 1991. 36(4): p. 657-666.

37.        Chmelik, J., ISOELECTRIC-FOCUSING FIELD-FLOW FRACTIONATION - EXPERIMENTAL-STUDY OF THE
GENERATION OF PH GRADIENT. Journal of Chromatography, 1991. 539(1): p. 111-121.

38.        Chmelik, J., ISOELECTRIC-FOCUSING FIELD-FLOW FRACTIONATION .2. EXPERIMENTAL-STUDY OF
FOCUSING OF METHYL RED IN THE TRAPEZOIDAL CROSS-SECTION CHANNEL. Journal of Chromatography, 1991.
545(2): p. 349-358.

39.        Chmelik, J. and J. Janca, ISOELECTRIC-FOCUSING FIELD FLOW FRACTIONATION - A NEW METHOD
OF SEPARATION OF AMPHOTERIC COMPOUNDS. Chemicke Listy, 1989. 83(3): p. 321-325.

40.        Chmelik, J., M. Deml, and J. Janca, SEPARATION OF 2 COMPONENTS OF HORSE MYOGLOBIN BY
ISOELECTRIC-FOCUSING FIELD-FLOW FRACTIONATION. Analytical Chemistry, 1989. 61(8): p. 912-914.

41.        Chmelik, J. and J. Janca, SEDIMENTATION-FLOTATION FOCUSING FIELD-FLOW FRACTIONATION IN
CHANNELS WITH MODULATED CROSS-SECTIONAL PERMEABILITY .2. EXPERIMENTAL IMPLEMENTATION. Journal of
Liquid Chromatography, 1986. 9(1): p. 55-66.

42.        Janca, J., J. Chmelik, and D. Pribylova, OPTIMIZATION OF FIELD-FLOW FRACTIONATION WITH
RESPECT TO RELAXATION AND USE OF STOP-FLOW TECHNIQUE AT CONSTANT FIELD OPERATION. Journal of Liquid
Chromatography, 1985. 8(13): p. 2343-2368.

43.        Janča, J. and J. Chmelik, Focusing in field-flow fractionation. Analytical Chemistry®,
1984. 56(13): p. 2481-2484.

44.        Janca, J., et al., PROGRESS IN FIELD-FLOW FRACTIONATION: THEORY, METHODOLOGY AND
APPLICATIONS. Journal of Liquid Chromatography, 1984. 7 Suppl 1: p. 1-39.

45.        Janca, J. and J. Chmelik, FOCUSING IN FIELD-FLOW FRACTIONATION. Analytical Chemistry,
1984. 56(13): p. 2481-2484.