Direct electroiodimetric sensing of reducing biomolecules using a modified multiwall carbon nanotube/ionic liquid paste electrode by tetra-n-octylammonium triiodide

“…So, the higher RLS intensity observed for nanocomposite in the presence of famotidine is due to the bigger molecular volume after assembling of famotidine on the nanoparticle's surface. 40 for determination of epinephrine in serum by using graphene quantum dots -chitosan (GQD-CS) modified CPE electrode, 41 for determination of nifedipine and dehydronifedipine by using MWCNT modified glassy carbon electrode (GCE), 42 for determination of epirubicin in spiked serum samples by using both 3D Fe 3 O 4 decorated single wall carbon nanotubes (Fe 3 O 4 -SWCNTs) nanocomposite and 1-methyl-3-octylimidazlium chloride (MOCTICl) as amplifier into CPE, 43 for determination of didanosine in spiked serum samples by using pencil graphite electrode modified with polypyrrole and reduced graphene oxide (PGE/PPy/rGO), 44 for determination of midazolam in spiked urine samples by using MIP nanoparticles modified CPE, 45 for determination of trimipramine in spiked urine and serum samples by using CPE modified with MWCNTs and a nano-structured MIP, 46 for determination of mephedrone in spiked urine and plasma samples by using MIP/polytyramine/f-MWCNT@ AuNPs nanocomposite/GCE, 47 for determination of tramadol by using CPE modified with nanographene/ tramadol-MIP/ionic liquid (GNS@Ag NPs/ MIPNPs/ [BMP]Tf2N RTIL) with measured concentration between 45.2 -51.0 µmol L -1 in urine sample of patients receiving tramadol, 48 for determination of dopamine in spiked serum samples by using a MWCNT/ionic liquid paste electrode / tetra-n-octylammonium triiodide (MWCNT/ TOAI 3 /CIL), 49 for determination of methimazole in serum samples by using CuNPs-P-L-Argenine/MWCNTs/GCE, 50 for determination of meloxicam in the spiked plasma samples by using CPE modified with gold nanoparticles modified choline chloride functionalized graphene oxide (AuNPs-ChCl-GO), 51 for detection of celecoxib in the spiked plasma samples by using CPE modified with AgNPs modified ChCl-GO, 52 for determination of acyclovir in spiked serum and urine samples by using GCE modified with a polymeric chitosan film decorated with MWCNTs + TiO 2 NPs, 53 for determination of isoxsuprine in spiked serum samples by using GCE modified with MWCNTs decorated with Ag NPs, 54 for determination of theophylline in spiked urine samples by using GQD modified SPE, 55 for determination of methyldopa in spiked urine samples by using a GCE modified with Cu/TiO 2 nanocomposite, 56 for simultaneous determination of epinephrine, paracetamol and tryptophan in spiked urine and serum samples by using modified CPE with Ni-doped Lewatit FO36 nano ion exchange resin, 57 for determination of favoxate hydrochloride and tolterodine tartrate in spiked urine samples by using ferrocene modified carbon paste electrode (FMCPE),…”

A Comprehensive Review on Developed Pharmaceutical Analysis Methods by Iranian Analysts in 2018

“…So, the higher RLS intensity observed for nanocomposite in the presence of famotidine is due to the bigger molecular volume after assembling of famotidine on the nanoparticle's surface. 40 for determination of epinephrine in serum by using graphene quantum dots -chitosan (GQD-CS) modified CPE electrode, 41 for determination of nifedipine and dehydronifedipine by using MWCNT modified glassy carbon electrode (GCE), 42 for determination of epirubicin in spiked serum samples by using both 3D Fe 3 O 4 decorated single wall carbon nanotubes (Fe 3 O 4 -SWCNTs) nanocomposite and 1-methyl-3-octylimidazlium chloride (MOCTICl) as amplifier into CPE, 43 for determination of didanosine in spiked serum samples by using pencil graphite electrode modified with polypyrrole and reduced graphene oxide (PGE/PPy/rGO), 44 for determination of midazolam in spiked urine samples by using MIP nanoparticles modified CPE, 45 for determination of trimipramine in spiked urine and serum samples by using CPE modified with MWCNTs and a nano-structured MIP, 46 for determination of mephedrone in spiked urine and plasma samples by using MIP/polytyramine/f-MWCNT@ AuNPs nanocomposite/GCE, 47 for determination of tramadol by using CPE modified with nanographene/ tramadol-MIP/ionic liquid (GNS@Ag NPs/ MIPNPs/ [BMP]Tf2N RTIL) with measured concentration between 45.2 -51.0 µmol L -1 in urine sample of patients receiving tramadol, 48 for determination of dopamine in spiked serum samples by using a MWCNT/ionic liquid paste electrode / tetra-n-octylammonium triiodide (MWCNT/ TOAI 3 /CIL), 49 for determination of methimazole in serum samples by using CuNPs-P-L-Argenine/MWCNTs/GCE, 50 for determination of meloxicam in the spiked plasma samples by using CPE modified with gold nanoparticles modified choline chloride functionalized graphene oxide (AuNPs-ChCl-GO), 51 for detection of celecoxib in the spiked plasma samples by using CPE modified with AgNPs modified ChCl-GO, 52 for determination of acyclovir in spiked serum and urine samples by using GCE modified with a polymeric chitosan film decorated with MWCNTs + TiO 2 NPs, 53 for determination of isoxsuprine in spiked serum samples by using GCE modified with MWCNTs decorated with Ag NPs, 54 for determination of theophylline in spiked urine samples by using GQD modified SPE, 55 for determination of methyldopa in spiked urine samples by using a GCE modified with Cu/TiO 2 nanocomposite, 56 for simultaneous determination of epinephrine, paracetamol and tryptophan in spiked urine and serum samples by using modified CPE with Ni-doped Lewatit FO36 nano ion exchange resin, 57 for determination of favoxate hydrochloride and tolterodine tartrate in spiked urine samples by using ferrocene modified carbon paste electrode (FMCPE),…”

A Comprehensive Review on Developed Pharmaceutical Analysis Methods by Iranian Analysts in 2018

Electrochemical sensing of hydrogen peroxide using a glassy carbon electrode modified with multiwalled carbon nanotubes and zein nanoparticle composites: application to HepG2 cancer cell detection

A highly sensitive electrochemical biosensor for dopamine and uric acid in the presence of a high concentration of ascorbic acid