Petr Král Research Group
Department of Chemistry
University of Illinois at Chicago
Movies Gallery

Transient byproducts clustering on wet-etched Silicon nanopillars


http://www2.chem.uic.edu/pkral/movies/etching.avi

PEG(350)ylated organomimetic cluster nanomolecules (OCNs) in water


http://www2.chem.uic.edu/pkral/movies/G1-PEG350.mp4 http://www2.chem.uic.edu/pkral/movies/G2-PEG350.mp4

PEG(750)ylated OCNs in water


http://www2.chem.uic.edu/pkral/movies/G1-PEG750.mp4 http://www2.chem.uic.edu/pkral/movies/G2-PEG750.mp4

PEG(2000)ylated OCNs in water


http://www2.chem.uic.edu/pkral/movies/G1-PEG2000.mp4 http://www2.chem.uic.edu/pkral/movies/G2-PEG2000.mp4

Multivalent binding of glycosylated OCNs to lectin Concanavalin A


http://www2.chem.uic.edu/pkral/movies/sugar.mp4 http://www2.chem.uic.edu/pkral/movies/sugar-NP.mp4

3D structure of nanoshells from CdS NPs obtained by TEM tomography


http://www2.chem.uic.edu/pkral/movies/capsule1.mp4

MD simulations of a nanoshell from ligated CdS NPs with charge q=2e


http://www2.chem.uic.edu/pkral/movies/capsule2.mp4

MD simulations of a nanoshell from naked CdS NPs with charge q=0.6e


http://www2.chem.uic.edu/pkral/movies/capsule3.mp4

MD simulation of tryptophan bilayer ribbon - longitudinal


http://www2.chem.uic.edu/pkral/movies/tryptophan-L.avi

MD simulation of tryptophan bilayer ribbon - transversal


http://www2.chem.uic.edu/pkral/movies/tryptophan-T.avi

In situ TEM movie showing formation of NP chain (100 f/s) - low linker concentration


http://www2.chem.uic.edu/pkral/movies/lowTEM.avi

MD simulation showing formation of NP chain (4 ns) - low linker concentration


http://www2.chem.uic.edu/pkral/movies/lowMD.avi

In situ TEM movie showing formation of branched NP network (25 f/s) - high linker concentration


http://www2.chem.uic.edu/pkral/movies/lowTEM.avi

MD simulation showing formation of NP chain (10 ns) - high linker concentration


http://www2.chem.uic.edu/pkral/movies/highMD-lin.avi

MD simulation showing formation of branched NP network (35 ns) - high linker concentration


http://www2.chem.uic.edu/pkral/movies/highMD-bra.avi

cis-azobenzene-ligated nanoparticles in toluene solvent and water solute


http://www2.chem.uic.edu/pkral/movies/3cis.gif

trans-azobenzene-ligated nanoparticles in toluene solvent and water solute


http://www2.chem.uic.edu/pkral/movies/3trans.gif

Solvation of 20 water cluser between 4 cis-azobenzene-ligated nanoparticles


http://www2.chem.uic.edu/pkral/movies/20waters.gif

Release of water in vacuum during a cis-trans ligand-type switching


http://www2.chem.uic.edu/pkral/movies/cis-trans-vac.gif

Formation of helices of superparamagnetic nanocubes


http://www2.chem.uic.edu/pkral/movies/magnet1.gif

Self-assembly of superstructures from a randomly positioned nanocubes


http://www2.chem.uic.edu/pkral/movies/magnet2.gif

Coupling of F anion to coronene (center)


http://www2.chem.uic.edu/pkral/movies/coro-F-center.avi

Coupling of F anion to coronene (side)


http://www2.chem.uic.edu/pkral/movies/coro-F-side.avi

Coupling of Na cation to coronene (center)


http://www2.chem.uic.edu/pkral/movies/coro-Na-center.avi

Coupling of F anion to a triangular flake (center)


http://www2.chem.uic.edu/pkral/movies/F-zig-cen-bond.avi

Coupling of F anion to a triangular flake (edge)


http://www2.chem.uic.edu/pkral/movies/zigzag-F-edge.avi

Dragging of small water droplets on vibrated nanotubes


http://www2.chem.uic.edu/pkral/movies/dropS.avi

Dragging of large water droplets on vibrated nanotubes


http://www2.chem.uic.edu/pkral/movies/dropL.mpg

Nesting of molecules on functionalized graphene


http://www2.chem.uic.edu/pkral/movies/nest.mpg

Controlled self-assembly of double-headed lipid micelles


http://www2.chem.uic.edu/pkral/movies/double-headed.avi

Controlled self-assembly of single-headed lipid micelles


http://www2.chem.uic.edu/pkral/movies/single-headed.avi

Self-assembly of hydrated graphene-membrane superstructures


http://www2.chem.uic.edu/pkral/movies/grabim.mpg

Rolling of graphene nanoribbon on carbon nanotube


http://www2.chem.uic.edu/pkral/movies/roll.mpg

Helical rolling of graphene nanoribbon on carbon nanotube


http://www2.chem.uic.edu/pkral/movies/helix-out.mpg

Helical rolling of graphene nanoribbon inside carbon nanotube


http://www2.chem.uic.edu/pkral/movies/helix-in.mpg

Helical rolling of two graphene nanoribbons inside carbon nanotube


http://www2.chem.uic.edu/pkral/movies/double-helix.mpg

Knot formation of graphene nanoribbon on carbon nanotube


http://www2.chem.uic.edu/pkral/movies/knot.mpg

Self-assembly of graphene flake


http://www2.chem.uic.edu/pkral/movies/flower.avi

Sliding self-assembly of graphene stripe


http://www2.chem.uic.edu/pkral/movies/sliding.avi

Rolling self-assembly of graphene stripe


http://www2.chem.uic.edu/pkral/movies/rolling.avi

Rolling of nanorods on watter by light


http://www2.chem.uic.edu/pkral/movies/roller.avi

Twisting of hydrated nanotube-peptide junction


http://www2.chem.uic.edu/pkral/movies/barcone.avi

Passage of Na+ ion through F-N-pore in graphene


http://www2.chem.uic.edu/pkral/movies/Na.avi

Passage of Cl- ion through H-pore in graphene


http://www2.chem.uic.edu/pkral/movies/Cl.avi

Rotary tunneling motor with 3 blades


http://www2.chem.uic.edu/pkral/movies/f3.avi

Rotary tunneling motor with 6 blades


http://www2.chem.uic.edu/pkral/movies/f6.avi

Rotary tunneling motor with dual-blades


http://www2.chem.uic.edu/pkral/movies/dip.avi

Dragging of 400 waters by Na ion on CNT


http://www2.chem.uic.edu/pkral/movies/drop.avi

Dragging of 10000 waters by two Na ions on two CNTs


http://www2.chem.uic.edu/pkral/movies/bigd.avi

Dragging of 400 waters by Na ion on BNT


http://www2.chem.uic.edu/pkral/movies/BNT5-5-400.avi

Molecular drag by separately flowing water


http://www2.chem.uic.edu/pkral/movies/push.avi

Hydrophobic surface propeller


http://www2.chem.uic.edu/pkral/movies/surf-pho.avi

Hydrophillic surface propeller


http://www2.chem.uic.edu/pkral/movies/surf-phi.avi

Hydrophobic bulk propeller


http://www2.chem.uic.edu/pkral/movies/bulk-pho.avi

Piece of GFP docked on the ligand-modified graphene


http://www2.chem.uic.edu/pkral/movies/dop-pept.avi

Active catalyst on the right-twisted nanotube


http://www2.chem.uic.edu/pkral/movies/catal-act.avi

Passive catalyst on the left-twisted nanotube


http://www2.chem.uic.edu/pkral/movies/catal-pass.avi