Zuzana Hloušková scite author profile

Zuzana Hloušková

4Publications

58Citation Statements Received

101Citation Statements Given

How they've been cited

How they cite others

162

Affiliations

O2 Czech Republic (Czechia), Slovak Academy of Sciences, Polymer Institute

Publications

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Structure‐Catalytic Activity in a Series of Push‐Pull Dicyanopyrazine/Dicyanoimidazole Photoredox Catalysts

et al. 2018

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A series of dicyanopyrazine and dicyanoimidazole derived push‐pull molecules have been prepared and further investigated as photoredox catalysts. The fundamental properties of the catalysts were studied by DSC, X‐ray analysis, absorption/emission spectra, and electrochemistry and were completed with the DFT results. The catalytic activity has been evaluated in visible light induced α‐functionalization of amines (cross‐dehydrogenative coupling and annulation reaction of tetrahydroisoquinolines). Thorough structure‐property‐catalytic activity relationships were elucidated. The developed series of tailored organic photoredox catalysts allows synthetic chemists to perform desired reactions under sustainable and mild conditions employing solely visible light as a source of energy.

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Free volume structure and spin probe dynamics in solid polymers

Bartoš

Hloušková

1993

Polymer

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Structural elaboration of dicyanopyrazine: towards push–pull molecules with tailored photoredox activity

et al. 2019

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Effect of percolation on free‐radical polymerization of acrylamide in inverse microemulsion

Bartoň

Tiňo

Hloušková

et al. 1994

Polymer International

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The kinetics of free‐radical polymerization of acrylamide initiated by dibenzoyl peroxide in non‐percolating and percolating inverse microemulsions (toluene/sodium bis(2‐ethylhexyl) sulfosuccinate/water/acrylamide) and the properties of polyacrylamide particles formed from these inverse microemulsions were investigated. The acrylamide polymerization rate and polyacrylamide number‐average molecular mass depend on the acrylamide concentration in the dispersed phase of the inverse microemulsion. For non‐percolating inverse microemulsions these dependecies are described by the equation where x and y have the values of 1.8 and 1.4 respectively, while for percolating inverse microemulsions the respective values of x and y are 1.1 and 0.4. Data on polymer particle size and number‐average molecular mass of polyacrylamide in polymer particles were used for calculation of the average number of polymer chains in polymer particles for non‐percolating (approximately one chain per particle) and for percolating (more than two chains per particle) inverse microemulsions. The spin probe (potassium nitrosodisulfonate, Fremy's salt) correlation time τc expressing the spin probe mobility in water‐swollen polymer particles and in polyacrylamide water solution pointed to the ‘collapsed’ state of polyacrylamide chains in polymer particles in both kinds of inverse microemulsions. Besides the dependencies of polyacrylamide polymerization rate and of number‐average molecular mass of polyacrylamide on the acrylamide concentration in inverse microemulsions, the dependence of T50G values, characterizing the spin probe mobility in polymer particles of inverse microemulsions as a function of polyacrylamide concentration in the polymer particles, is different for nonpercolating and percolating inverse microemulsions.

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