Katrina A. Jolliffe

What is she best known for?

The fields of study she is best known for:

• Organic chemistry
• Enzyme
• Catalysis

Katrina A. Jolliffe mainly investigates Combinatorial chemistry, Stereochemistry, Cyclic peptide, Nanotechnology and Organic chemistry. Her Combinatorial chemistry research integrates issues from Ion, Membrane and Peptide. Her Stereochemistry study incorporates themes from Crystallography, Ether, Oligomer, Barbituric acid and Halogenation.

Her research integrates issues of Anion binding, Polymer, Receptor, Selectivity and Aqueous solution in her study of Cyclic peptide. The Nanotechnology study combines topics in areas such as Supramolecular chemistry, Molecule and Dipicolylamine. Her Molecule research integrates issues from Nanoscopic scale and Self assembling.

Her most cited work include:

• Anion recognition and sensing with Zn(II)–dipicolylamine complexes (241 citations)
• Luminescent probes for the bioimaging of small anionic species in vitro and in vivo (235 citations)
• Fluorescent and colorimetric chemosensors for pyrophosphate (199 citations)

What are the main themes of her work throughout her whole career to date?

Her scientific interests lie mostly in Stereochemistry, Cyclic peptide, Combinatorial chemistry, Organic chemistry and Peptide. Katrina A. Jolliffe has included themes like Amino acid, Side chain and Chemical synthesis in her Stereochemistry study. Her research integrates issues of Receptor, Anion binding, Polymer chemistry and Polymer in her study of Cyclic peptide.

The Combinatorial chemistry study combines topics in areas such as Supramolecular chemistry, Dipicolylamine and Molecular recognition. Her work deals with themes such as Aryl, Nanotechnology and Hydrogen bond, which intersect with Supramolecular chemistry. Her Peptide study incorporates themes from Yield, Covalent bond and Biocatalysis.

She most often published in these fields:

• Stereochemistry (33.19%)
• Cyclic peptide (23.45%)
• Combinatorial chemistry (23.89%)

What were the highlights of her more recent work (between 2016-2021)?

• Combinatorial chemistry (23.89%)
• Cyclic peptide (23.45%)
• Supramolecular chemistry (12.39%)

In recent papers she was focusing on the following fields of study:

Her primary areas of study are Combinatorial chemistry, Cyclic peptide, Supramolecular chemistry, Biophysics and Polymer. Katrina A. Jolliffe performs multidisciplinary study in the fields of Combinatorial chemistry and Feature synthesis via her papers. Her Cyclic peptide research is multidisciplinary, incorporating perspectives in Pseudoproline, Halide and 1h nmr spectroscopy.

Her work in Biophysics addresses issues such as Fluorescence-lifetime imaging microscopy, which are connected to fields such as Cell, Phosphatidylserine, Annexin, Flow cytometry and Fluorophore. Her work on Amphiphile as part of general Polymer research is frequently linked to Conjugate, bridging the gap between disciplines. Her studies deal with areas such as Stereochemistry and Peptide as well as Alanine.

Between 2016 and 2021, her most popular works were:

• Pyrophosphate Recognition and Sensing in Water Using Bis[zinc(II)dipicolylamino]-Functionalized Peptides (39 citations)
• Cyclic Peptide-Polymer Nanotubes as Efficient and Highly Potent Drug Delivery Systems for Organometallic Anticancer Complexes. (37 citations)
• Fluorescent sensing arrays for cations and anions (28 citations)

In her most recent research, the most cited papers focused on:

• Organic chemistry
• Enzyme
• Catalysis

The scientist’s investigation covers issues in Biophysics, Cyclic peptide, Anion binding, Polymer and Conjugate. Her Biophysics research incorporates elements of Cell and Fluorescence-lifetime imaging microscopy. The study incorporates disciplines such as Peptide, Stereochemistry, Ion pairs and Rotaxane in addition to Anion binding.

Her biological study spans a wide range of topics, including Molecular recognition, Nucleotide, Pyrophosphate, Polyphosphate and Binding site. Her studies in Polymer integrate themes in fields like Protonation, Polymer chemistry and Supramolecular polymers. Her Drug delivery research includes themes of Conjugated system, Methacrylamide and Combinatorial chemistry.

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