The development of highly sensitive and selective enantiomeric platforms towards the rapid screening of active pharmaceutical ingredients (APIs) is nowadays a crucial challenge in several fields related to pharmacology, biomedicine, biotechnology and (bio)sensors. Herein, it is presented a novel, facile and generic methodology focused on exploiting the synergistically and electrocatalytic properties of chiral magnetic-nanobiofluids (mNBFs) with electrochemical enantiobiosensing at a magneto nanocomposite graphene paste electrode (mNC–GPE). The feasibility of this approach has been validated by chirally recognizing tryptophan (TRP) enantiomers as a proof-of-concept. For this aim, a specific chiral mNBF based on an aqueous dispersion of cobal...
Chiral materials capable of electrochemical enantiomeric recognition are highly desirable for many a...
Chiral materials capable of electrochemical enantiomeric recognition are highly desirable for many a...
Chiral materials capable of electrochemical enantiomeric recognition are highly desirable for many a...
The development of highly sensitive and selective enantiomeric platforms towards the rapid screening...
The development of highly sensitive and selective enantiomeric platforms towards the rapid screening...
Chirality is a major field of research of chemical biology and is essential in pharmacology. Accordi...
Enantio-recognition in chiral molecules has been attracting considerable attention due to the high ...
Enantio-recognition in chiral molecules has been attracting considerable attention due to the high ...
Cyclodextrins, which are glucose-based cyclic oligosaccharides, are materials that can act inherentl...
A novel ingenious and ultrasensitive chiral electrochemical transducer is proposed for tryptophan (T...
By using DNA or a peptide as a common probe, graphene-based biosensing has made significant progress...
Driven by the urgent need for recognition and quantification of trace amino acids enantiomers in var...
Based on N-doped carbon dots/β-cyclodextrin nanocomposites modified glassy carbon electrodes (N-CDs/...
Based on N-doped carbon dots/β-cyclodextrin nanocomposites modified glassy carbon electrodes (N-CDs/...
The β-CD@PEI-Fc chiral interface was prepared based on the supramolecular host-guest interaction bet...
Chiral materials capable of electrochemical enantiomeric recognition are highly desirable for many a...
Chiral materials capable of electrochemical enantiomeric recognition are highly desirable for many a...
Chiral materials capable of electrochemical enantiomeric recognition are highly desirable for many a...
The development of highly sensitive and selective enantiomeric platforms towards the rapid screening...
The development of highly sensitive and selective enantiomeric platforms towards the rapid screening...
Chirality is a major field of research of chemical biology and is essential in pharmacology. Accordi...
Enantio-recognition in chiral molecules has been attracting considerable attention due to the high ...
Enantio-recognition in chiral molecules has been attracting considerable attention due to the high ...
Cyclodextrins, which are glucose-based cyclic oligosaccharides, are materials that can act inherentl...
A novel ingenious and ultrasensitive chiral electrochemical transducer is proposed for tryptophan (T...
By using DNA or a peptide as a common probe, graphene-based biosensing has made significant progress...
Driven by the urgent need for recognition and quantification of trace amino acids enantiomers in var...
Based on N-doped carbon dots/β-cyclodextrin nanocomposites modified glassy carbon electrodes (N-CDs/...
Based on N-doped carbon dots/β-cyclodextrin nanocomposites modified glassy carbon electrodes (N-CDs/...
The β-CD@PEI-Fc chiral interface was prepared based on the supramolecular host-guest interaction bet...
Chiral materials capable of electrochemical enantiomeric recognition are highly desirable for many a...
Chiral materials capable of electrochemical enantiomeric recognition are highly desirable for many a...
Chiral materials capable of electrochemical enantiomeric recognition are highly desirable for many a...