Organske reakcije u vodi Dajana Gašo-Sokač; Valentina Bušić; Dora Zobundžija ...
Kemija u industriji; časopis kemičara i tehnologa Jugoslavije,
09/2023, Letnik:
72, Številka:
9-10
Journal Article
Recenzirano
Odprti dostop
Velik je izazov provoditi organske reakcije u vodi. U posljednjem desetljeću broj znanstvenih istraživanja koja se bave proučavanjem vode kao zelenog otapala nastavio je eksponencijalno rasti. Osim ...što je jeftina, voda nije štetna za okoliš, a ponekad daje potpuno neočekivanu reaktivnost u kemijskim reakcijama. Postoji širok raspon organskih reakcija koje se mogu odvijati u vodi: od uobičajenih oksidoredukcijskih reakcija, reakcija koje uključuju karbokatione, pericikličkih reakcija, reakcija prijelaznih metala itd. Organske reakcije u vodenom mediju primjenjuju se u kemiji ugljikohidrata i kemijskoj modifikaciji biomolekula. U novije vrijeme voda se upotrebljava kao medij u mikrovalnoj sintezi. Ovaj pregledni rad daje uvid u važnost ovog područja budući da se organske reakcije u vodi kao otapalu odvijaju po principima zelene kemije.
The quaternization reactions of nicotinamide, with different electrophiles: methyl iodide and substituted 2-bromoacetophenones (4-Cl, 4-Br, 4-H, 4-CH₃, 4-F, 4-OCH₃, 4-Ph, 2-OCH₃, 4-NO₂) are reported. ...The preparations were carried out by conventional synthesis and under microwave irradiation in absolute ethanol and acetone. The synthesis performed by microwave dielectric heating significantly improved yield, up to 8 times, and shortened down the reaction time from
one day in conventional, to 10⁻20 min. The structures of the synthesized compounds were confirmed by IR, ¹H- and
C-NMR spectroscopy, mass spectrometry and elemental analysis. The compounds have been screened for antifungal activities against
,
,
and
at concentrations of 10 µg/mL and 100 µg/mL. Six compounds showed the strong inhibition of mycelium growth at a concentration of 10 µg/mL. All tested compounds revealed the great inhibitory activities against
at a concentration of 100 µg/mL.
Occurence of pharmaceuticals in surface water Gaso-Sokac, Dajana; Habuda-Stanic, Mirna; Busic, Valentina ...
Croatian journal of food science and technology,
12/2017, Letnik:
9, Številka:
2
Journal Article
Recenzirano
Odprti dostop
Pharmaceuticals constitute a large group of human and veterinary medicinal organic compounds which have long been used throughout the world. According to their therapeutic activity they are ...classified in several groups: antibiotics, analgesics/antipyretic, CNS (Central nervous system) drugs, cardiovascular drugs, endocrinology treatments, diagnostic aid-adsorbable organic halogen compounds. Pharmaceuticals are designed to have a physiological effect on humans and animals in trace concentrations. Pharmaceuticals end up in soil, surface waters and eventually in ground water, which can be used as a source of drinking water, after their excretion (in unmetabolized form or as active metabolites) from humans or animals via urine or faeces. The possible fates of pharmaceuticals once they get into the aquatic environment are mainly three: (i) ultimately they are mineralized to carbon dioxide and water, (ii) the compound does not degrade readily because it is lipophilic and is partially retained in the sedimentation sludge and (iii) the compound metabolizes to a more hydrophilic molecule, passes through the wastewater treatment plant and ends up in receiving waters (which are surface waters, mainly rivers). These compounds exhibit the highest persistence in the environment. In recent years, and in particular after the use of the advanced measurement technologies, many pharmaceuticals have been identified worldwide and detected at ng/L levels (trace concentrations) in the aquatic environment, and are considered as an emerging environmental problem due to their continuous input and persistence in the aquatic ecosystem even at low concentrations.