Jaroslav Hanuš

Dr. Jaroslav Hanuš

Senior researcher
+420 220 443 048
VŠCHT Praha – building B Room B307

Work Experience

  • 2008 – present
    Postdoctoral Research Associate, Laboratory of Chemical Robotics, Institute of Chemical Technology, Prague
  • 2005 – 2008
    Software developer
  • 2003 – 2005
    Postdoctoral Research Associate – Molecular Dynamics simulations of biological molecules, CERMAV – CNRS, Grenoble, France
  • 2002 – 2003
    Software developer

Education

  • 1997 – 2001
    PhD at Charles University in Prague, Faculty of Mathematics and Physics jointly with Université Pierre et Marie Curie, Laboratoire de Physicochimie Biomoléculaire et Cellulaire
  • 1991 – 1996
    Mgr. (MSc. full equivalent) degree in biophysics, Charles University in Prague, Faculty of Mathematics and Physics

Research Interests

  • chemical robotics
  • optical methods (vibrational, UV spectroscopies, microscopy methods)
  • antisense oligonucleotides
  • informatics
  • sustainable development

Publications

  • Čejková J., Haufová P., Gorný D., Hanuš J., Štěpánek F., “Biologically triggered liberation of sub-micron particles from alginate microcapsules”, J. Mater. Chem. B, in press (2013)
  • Hanuš J., Ullrich M., Dohnal J., Singh M., Štěpánek F., “Remotely controlled diffusion from magnetic liposome microgels”, Langmuir 29, 4381-4387 (2013)
  • Ullrich M., Hanuš J., Dohnal J., Štěpánek F., “Encapsulation stability and temperature-dependent release kinetics from hydrogel-immobilised liposomes”, J. Coll. Interf. Sci. 394, 380-385 (2013)
  • Haufová P., Dohnal J., Hanuš J., Štěpánek F., Towards the inkjet fabrication of artificial cells, Coll. Surf. A 410, 52-58 (2012)
  • Haufová P., Knejzlík Z., Hanuš J., Zadražil A., Štěpánek F., Reversible buckling and diffusion properties of silica-coated hydrogel particles, J. Coll. Interf. Sci. 357, 109-115 (2011)
  • Čejková J., Hanuš J., Štěpánek F., Investigation of internal microstructure and thermo-responsive properties of composite PNIPAM/silica microcapsules, J. Coll. Interf. Sci., accepted (2010), doi: 10.1016/j.jcis.2010.02.060
  • Hanuš J., K. Mazeau: The xyloglucan-cellulose assembly at the atomic scale (2006) Biopolymers, 82(1):59-73
  • K. Chmelová , J. Štěpánek, Hanuš J., P.-Y. Turpin: Raman study of the triplex-like complex formation of polyuridylic acid and diadenosine monophosphate: influence of nickel ions (2001) J. Mol. Struct., 565-566, 231-235
  • Hanuš J., I. Barvík, K. Ruszová-Chmelová, J. Štěpánek, P.-Y. Turpin, J. Bok, I. Rosenberg, M. Petrová-Endová: The -CH2- lengthening of the internucleotide linkage in ApA dimer can improve its conformational compatibility with its natural polynucleotide counterpart (2001), Nucleic Acid Res., Vol. 29, No. 24
  • Hanuš J., J. Štěpánek, P.-Y. Turpin, J. Bok: Formation and stability of nucleotide complexes: Raman titration investigation (1999), J. Mol. Struct., 480-481, 437-442
  • Hanuš J., K. Chmelová, J. Štěpánek, P.-Y. Turpin, J. Bok, I. Rosenberg, Z. Točík: Raman spectroscopy study of triplex-like complexes of polyuridylic acid with the isopolar, nonisosteric phosphonate analogues of diadenosine monophosphate (1999), J. Raman Spectrosc., 30, 667-676