All-electrochemical nanocomposite two-electrode setup for quantification of drugs and study of their electrocatalytical conversion by cytochromes P450

“…Polymeric materials of amphiphilic nature can provide good dispersibility of MWCNTs in aqueous media and ensure long-term colloidal stability of such systems, as we demonstrated earlier for polymers of various structure and composition, such as imidazolium-based poly(ionic liquid)s [ 23 ], cationic poly(1,2-butadiene)- block -poly(2-(dimethylamino)ethyl methacrylate) diblock copolymers [ 34 ], anionic poly( n -butylacrylate)- block -poly(acrylic acid) diblock copolymers [ 36 ], and poly(dehydroalanine)-based graft copolymers [ 38 ]. The amphiphilic nature of the polymer is of key importance for successful dispersing of superhydrophobic carbon nanomaterials to individual fragments (particles) in aqueous media.…”

“…Based on potentiometric titration data and our previous experience [ 34 ], we assume that due to their pronounced amphiphilic character P n BMA x - b -PDMAEMA y diblock copolymers will easily disperse carbon nanomaterials such as MWCNTs. Furthermore, the best colloidal stability of dispersions is expected in acidic media where PDMAEMA blocks are in their charged (protonated) state.…”

“…Furthermore, the best colloidal stability of dispersions is expected in acidic media where PDMAEMA blocks are in their charged (protonated) state. However, one cannot obtain homogeneous dispersions of MWCNTs by simple mixing of MWCNT powder with a solution of P n BMA x - b -PDMAEMA y at pH 3 (corresponding to the fully protonated PDMAEMA blocks) [ 23 , 34 , 36 ]. Only after high energy ultrasound treatment, the disentanglement of MWCNTs bundles to individual MWCNTs was done, and we obtained very homogenous black suspensions (“inks”), which were colloidally stable at room temperature for at least several months (> 7 months).…”

“…However, MWCNTs are hardly dispersible in most conventional solvents, and that makes them not easy-to-handle. The main strategy to overcome this disadvantage is dispersing of MWCNTs in solutions of synthetic or natural polymers [ 23 , 30 , 31 , 32 , 33 , 34 ].…”

“…Due to their amphiphilic structure, such materials are good dispersants for carbon nanomaterials. Moreover, the charged groups provide the subsequent immobilization of analytes, while the presence of a hydrophobic segment preferably with a low or moderate glass transition temperature T g might considerably facilitate the modification of hydrophobic carbon surfaces [ 23 , 34 , 35 , 36 ].…”

Rational Design of Amphiphilic Diblock Copolymer/MWCNT Surface Modifiers and Their Application for Direct Electrochemical Sensing of DNA

“…Polymeric materials of amphiphilic nature can provide good dispersibility of MWCNTs in aqueous media and ensure long-term colloidal stability of such systems, as we demonstrated earlier for polymers of various structure and composition, such as imidazolium-based poly(ionic liquid)s [ 23 ], cationic poly(1,2-butadiene)- block -poly(2-(dimethylamino)ethyl methacrylate) diblock copolymers [ 34 ], anionic poly( n -butylacrylate)- block -poly(acrylic acid) diblock copolymers [ 36 ], and poly(dehydroalanine)-based graft copolymers [ 38 ]. The amphiphilic nature of the polymer is of key importance for successful dispersing of superhydrophobic carbon nanomaterials to individual fragments (particles) in aqueous media.…”

“…Based on potentiometric titration data and our previous experience [ 34 ], we assume that due to their pronounced amphiphilic character P n BMA x - b -PDMAEMA y diblock copolymers will easily disperse carbon nanomaterials such as MWCNTs. Furthermore, the best colloidal stability of dispersions is expected in acidic media where PDMAEMA blocks are in their charged (protonated) state.…”

“…Furthermore, the best colloidal stability of dispersions is expected in acidic media where PDMAEMA blocks are in their charged (protonated) state. However, one cannot obtain homogeneous dispersions of MWCNTs by simple mixing of MWCNT powder with a solution of P n BMA x - b -PDMAEMA y at pH 3 (corresponding to the fully protonated PDMAEMA blocks) [ 23 , 34 , 36 ]. Only after high energy ultrasound treatment, the disentanglement of MWCNTs bundles to individual MWCNTs was done, and we obtained very homogenous black suspensions (“inks”), which were colloidally stable at room temperature for at least several months (> 7 months).…”

“…However, MWCNTs are hardly dispersible in most conventional solvents, and that makes them not easy-to-handle. The main strategy to overcome this disadvantage is dispersing of MWCNTs in solutions of synthetic or natural polymers [ 23 , 30 , 31 , 32 , 33 , 34 ].…”

“…Due to their amphiphilic structure, such materials are good dispersants for carbon nanomaterials. Moreover, the charged groups provide the subsequent immobilization of analytes, while the presence of a hydrophobic segment preferably with a low or moderate glass transition temperature T g might considerably facilitate the modification of hydrophobic carbon surfaces [ 23 , 34 , 35 , 36 ].…”

Rational Design of Amphiphilic Diblock Copolymer/MWCNT Surface Modifiers and Their Application for Direct Electrochemical Sensing of DNA

Enzymology on an Electrode and in a Nanopore: Analysis Algorithms, Enzyme Kinetics, and Perspectives

Electrochemical Assessment of CYP3A4 Catalytic Activity in Bactosomes