Solvophobic interactions in liquid chromatography with nonpolar stationary phases (Solvophobic Theory of Reversed Phase Chromatography, Part I). Cs. Horváth, W. Melander, I. Molnár, J. of Chromatogr. 125, 129-156 (1976). PDF

An analytical method for the separation of dopamine metabolites in cellular extracts by HPLC. R. W. Stout, R.J. Michelot, I. Molnár, Cs. Horváth, J.K. Coward, Analytical Biochemistry 76, 330-341 (1976).

Reversed-phase chromatography of polar biological substances: Separation of catechol compounds by HPLC. I. Molnár, Cs. Horváth, Clinical Chemistry 22, 1497-1502 (1976).

Liquid chromatography of ionogenic substances with nonpolar stationary phases (Solvophobic Theory of Reversed Phase Chromatography, Part II). Cs. Horváth, W. Melander, I. Molnár, Analytical Chemistry 49, 142-153 (1977). PDF

Rapid separation of urinary acids by HPLC. I. Molnár, Cs. Horváth, J. of Chromatogr. 143, 391-400 (1977). PDF

Enhancement of retention by ion-pair formation in liquid chromatography with nonpolar stationary phases (Solvophobic Theory of Reversed Phase Chromatography, Part III). Cs. Horváth, W. Melander, I. Molnár, P. Molnár, Anal.Chem. 49, 2295-2305 (1977). PDF

Separation of amino acids and peptides on non-polar stationary phases by HPLC.
I. Molnár, Cs. Horváth, J. of Chromatogr. 142, 623-640 (1977). PDF

Rapid analysis of peptide mixtures by HPLC with nonpolar stationary phases.
I. Molnár, Cs. Horváth, "Peptides" Proceedings of the 5th American Peptide Symposium, 48-51, John Wiley and Sons, Inc., New York (1977).

Catecholamines and related compounds. I. Molnár, Cs. Horváth, J. of Chromatogr. 145, 371-381 (1978).

Separation of urinary aromatic acids, measurement of VMA by HPLC.
I. Molnár, Cs. Horváth, Chromatographia 11, 260-265 (1978).

Herstellung und Behandlung von HPLC-Säulen unter Routinebedingungen.
I. Molnár, Chromatographia 12, 371-380 (1979).

HPLC of Ions. I. Molnár, H. Knauer, D. Wilk, J. of Chromatogr. 202, 225 (1980).

Reversed phase chromatographic profiles of peptide immunoreactivities in human
plasma, urine and cerebospinal fluids. M. Schöneshöfer, A. Fenner, S. Baumgarten, I. Molnár, J. Clin. Chem. Clin. Biochem. 18, 731 (1980).

Structure-retention relationships and selectivity of peptides and proteins on nonpolar stationary phases. I.Molnár, M.Schöneshöfer, HPLC in Protein and Peptide Chemistry, ed. Henschen, Lottspeich, Hupe, p. 98, Walter de Gruyter & Co, Berlin, New York (1980).

Prediction of experimental parameters in combined isocratic and gradient elution reversed phase HPLC (RP-HPLC) using acetonitrile as organic modifier. I. Molnár, HRC & CC 4, 276 (1981).

Heterogeneity of corticotropin-immunoreactive compounds in human body fluids. M. Schöneshöfer, A. Fenner, I. Molnár, Clin. Chem. 27, 1875 (1981).

HPLC of Proteins: Analytical applications. K. Buchholz, B. Gödelmann, I. Molnár, J. of Chromatogr. 238, 193 (1982).

Analytik von Peptiden, Proteinen und Polynukleotiden durch HPLC. I. Molnár, Labor Praxis 19, 798-804 (1983).

Practical Aspects of HPLC, Proceedings of the Symposium in Berlin, Dec. 1981, Ed. I. Molnár, Verlag Walter de Gruyter GmbH & Co., Berlin, New York, (1983).

Retention in practical HPLC. I. Molnar, Practical Aspects of Modern HPLC, Ed. I. Molnár, p.364, Walter de Gruyter GmbH & Co., Berlin, New York (1983).

The current role of HPLC for the routine analysis of endogenous compounds in clinical chemistry. M. Schöneshöfer, I. Molnár, ibid., 41.

HPLC of membrane bound proteins. D. Josic, W. Reuter, I. Molnár, ibid, 109.

Separation of Proteins by Size Exclusion and Reversed Phase HPLC. W. Schwarz, J. Born, H. Tiedemann, I. Molnár, ibid., 123.

The HPLC of divalent sulphur. H.J. Möckel, T. Freyholdt, J. Weiss, I. Molnár, ibid., 161.

Improvement of column performance in HPLC using a special inlet port. W. Lamer, I. Molnár, ibid., 213.

Influence of flow splitting and radial injection on column performance in HPLC.
I. Molnár, A. Hühn, W. Lamer, International Laboratory 10 (1984).

Rapid measurement of cyclosporin A plasma levels by HPLC in allograft transplant recipients. H. Wilms, I. Molnár, Chromatographia 19, 472 (1984).

Saccharidtrennung mittels Gradientenelution. W. Mauch, A. Gennrich, I. Molnár, Z. Lebensm. Unters. Forsch. 185, 383 (1987).

Untersuchung der mittleren Molmasse und Molmassenverteilung von ultrahochmolekularem Polyethylen (UHMWPE). M. Kurth, P. Eyerer, A. Franck, I. Molnár, D.Cui, Univ. Stuttgart, Inst. f. Kunststoffprüfung, "Kunststoffe 1988."

High performance liquid chromatography of Thermus aquaticus 50S and 30S ribosomal proteins. I. Molnár, R.I. Boysen, V.A. Erdmann, Chromatographia 28, 39 (1989).

Peak Tracking in High Performance Liquid Chromatography based on normalised band areas.
I. Molnár, R. Boysen, P. Jekow, J. Chromatogr. 485, 569 (1989).

Isolation and Characterization of the Cytosolic and Chloroplastic 3-Phosphoglycerate Kinase from Spinach Leaves. E. Köpke-Secundo, I. Molnár, C. Schnarrenberger, Plant Physiol. 93, 40 (1990).

Fast development of a robust HPLC method for Gingko Biloba based on computer simulation.
I. Molnár, K.H. Gober, B. Christ, J. Chromatogr. 550, 39 (1991).

Biopolymer-Analyzer: HPLC-Anlage zur Online-Verknüpfung von SEC und RPC. C. Halbmeyer, I. Molnár, Biotec 4, 56 (1991).

Investigation of gamma-irradiation of alpha-tocopherol and its related derivatives by HPLC using a rapid scanning spectrophotometer. I. Molnár, S. Koswig, J. Chromatogr. 605, 49 (1992).

Application of the gradient elution technique. Demonstration with a special test mixture and the DryLab G/plus method development software. R. Däppen, I. Molnár, J. Chromatogr. 592, 133 (1992).

Bestimmung von Nebenprodukten in Atenolol. H. Hofmann, I. Molnár, Pharmazeutische Zeitung Wissenschaft Nr.1, 137, 37 (1992).

Computer simulation for the prediction of separation as a function of pH for reversed-phase high-performance liqiud chromatography I. Accuracy of a theory-based model.
J.A. Lewis, D.C. Lommen, W.D. Raddatz, J.W. Dolan, L.R. Snyder and I. Molnár, J.Chromatogr.  592, 183 (1992).

Computer simulation for the prediction of separation as a function of pH for reversed-phase high performance liquid chromatography II. Resolution as a function of simultaneous change in pH and solvent strength. J.A. Lewis, J.W. Dolan and L.R. Snyder; I. Molnár, J. Chromatogr. 592, 197 (1992).

HPLC-Bestimmung von Cytarabin. P.G. Dietrich, B. Büchele, I. Molnár, Pharmazie 47, 868 (1992).

Basenstabile Umkehrphasen auf Basis Kieselgel. P.G. Dietrich, J. Falkenhagen, I. Molnár, GIT (1993).

Computergestützte Optimierung in der Chromatographie. I. Molnár, Labor Praxis 40 (1993).

Separation of Arachidonic Acid Metabolites by Online-Extraction, Reversed Phase High Pressure Liquid Chromatography Optimized by Computer Simulation. H. Fritsch, M. Wurl, I. Molnár, J. Chromatogr., A 684, 65 (1994).

High-Performance Liquid Chromatographic Separation of the Impurities in a Pharmaceutical Raw Material with the Aid of Computer Simulation. H.W. Bilke, I. Molnár, and Ch. Gernet, J. Chromatog., A 729, 189 (1996).

Validation of Robust Chromatography Methods Using Computer Assisted Method Development for Quality Control. I. Molnár, LCGC Internat. 9(12), 800 (1996).

Selectivity Control in HPLC Method Development. L.R. Snyder, J.W. Dolan, I. Molnár, and N.M. Djordjevic, LCGC 15(2), 136 (1997).

Computerized optimization of the High-Performance Liquid Chromatographic Enantioseparation of a mixture of 4-dinitrophenyl amino acids on a quinine carbamate-type chiral stationary phase using DryLab. M. Lammerhofer, P. Di Eugenio, I. Molnár, and W. Lindner, J. Chromatogr., B 689, 123 (1997).

Validation of Robust Chromatography Methods Using Computer-Assisted Method Development for Quality Control. II. I. Molnár, LCGC Internat. 10(1), 32 (1997).

Reversed-Phase Gradient Elution: How to Get Better Results with Less Work. I. Molnár, L.R. Snyder, and J.W. Dolan, LCGC Internat. 11, 374 (1998).

Robuste HPLC- Methoden. Teil 1: Der Validierungsprozess bei HPLC- Analysen und die rasche Beurteilung von Schwachstellen in der Chromatographie. I. Molnár, LaborPraxis (Juli-August 1998).

Robuste HPLC- Methoden. Teil 2: Definition und Überprüfung der Robustheit. I. Molnár, LaborPraxis (September, 1998).

Robuste HPLC- Methoden. Teil 3: Robuste isokratische und robuste Gradientenmethoden. I. Molnár, LaborPraxis (November, 1998).

Robuste HPLC- Methoden.Teil 4: Zulässige Toleranzen der eingestellten Arbeitsparameter. I. Molnár, LaborPraxis (März, 1999).

Unexpected Results in Chromatography. I. Molnár, LCGC Internat. 14, 231 (2001).

Computer-assisted optimization in the development of a high performance liquid chromatographic method for the analysis of kava pyrones in Piper methysticum preparations. A.H. Schmidt, I. Molnár, J. Chromatogr. A 948, 51 (2002).

Two- dimensional optimization using different pairs of variables for the reversed-phase high-performance liquid chromatographic separation of a mixture of acidic compounds. T.H. Jupille, J.W. Dolan, L.R. Snyder, I. Molnár, J. Chromatogr., A 948, 35 (2002).

Computerized design of separation strategies in reversed-phase liquid chromatography: Development of DryLab software. I. Molnár, J. Chromatogr. A 956, 175-194 (2002). PDF

Advanced high performance liquid chromatography method development. Discovering unexpected choices in chromatography. H.J. Rieger, I. Molnár, J. Chromatogr.948, 43 (2002).

Optimizing Multilinear Gradients in HPLC. T. Jupille, L.R. Snyder, I. Molnár, LCGC Europe, 2-6 (2002).

Searching for Robust HPLC Methods - Csaba Horváth and the Solvophobic Theory. Imre Molnár, Chromatographia, Supplement Vol. 62, S7 (2005).

Retention modelling in ternary solvent-strength gradient elution reversed phase chromatography using 30 mm columns. Melvin R. Euerby, Frederico Scannapieco, Hans- Jürgen Rieger, I. Molnár,
J. Chromatogr., A, 1121, 219 (2006).

Artificial Neural Network Modeling of Structure Mobility Relationships in CZE. T. Chovan, S. Mittermayr, T. Kenesei, M. Olajos, I. Molnár, F. Darvas, A. Guttman, Paper presented at the Balaton-Symposium in Siofok, Hungary, Sept. 2007.

Artificial Neural Network Modeling of pH Dependent Structural Descriptor-Mobility Relationship for Capillary Zone Electrophoresis of Tripeptides. M. Olajos, T. Chován, S. Mittermayr; T. Kenesei, P. Hajos, I. Molnár, F. Darvas, A. Guttman, Journal of Liquid Chromatography & Related Technologies 31:15, 2348-2362 (2008).

Rapid high performance liquid chromatography method development with high prediction accuracy, using 5 cm long narrow bore columns packed with sub-2_m particles and Design Space computer modeling Szabolcs Fekete, J. Fekete, Imre Molnár, K.Ganzler, J. Chromatography A 1216, 7816-7823 (2009).

Aspects of the “Design Space” in High Pressure Liquid Chromatography Method Development, I. Molnár, H.-J. Rieger, K.E. Monks, J. Chromatogr. A 1217, 3193-3200 (2010).