What is he best known for?
The fields of study Stefan Matile is best known for:
Stefan Matile undertakes interdisciplinary study in the fields of Organic chemistry and Catalysis through his research.
His study on Biochemistry is mostly dedicated to connecting different topics, such as Vesicle.
His work on Biochemistry expands to the thematically related Vesicle.
His study on Membrane is mostly dedicated to connecting different topics, such as Bilayer.
In his research, he undertakes multidisciplinary study on Bilayer and Lipid bilayer.
By researching both Lipid bilayer and Membrane, he produces research that crosses academic boundaries.
Stefan Matile combines Nanotechnology and Biophysics in his studies.
In his research, he performs multidisciplinary study on Biophysics and Nanotechnology.
He undertakes interdisciplinary study in the fields of Molecule and Crystallography through his works.
His most cited work include:
- Role of LBPA and Alix in Multivesicular Liposome Formation and Endosome Organization (593 citations)
- Core-substituted naphthalenediimides (466 citations)
- Experimental evidence for the functional relevance of anion–π interactions (418 citations)
What are the main themes of his work throughout his whole career to date
Lipid bilayer, Bilayer and Vesicle are the subject areas of his Membrane study.
His Vesicle study frequently links to other fields, such as Membrane.
He integrates Organic chemistry and Stereochemistry in his studies.
Stefan Matile merges many fields, such as Stereochemistry and Organic chemistry, in his writings.
He performs multidisciplinary study in the fields of Biochemistry and Enzyme via his papers.
In his works, Stefan Matile undertakes multidisciplinary study on Enzyme and Biochemistry.
While working on this project, he studies both Nanotechnology and Biophysics.
Stefan Matile merges Biophysics with Nanotechnology in his study.
He connects Molecule with Supramolecular chemistry in his research.
Stefan Matile most often published in these fields:
- Organic chemistry (73.31%)
- Biochemistry (60.12%)
- Nanotechnology (37.73%)
What were the highlights of his more recent work (between 2019-2022)?
- Biochemistry (66.67%)
- Organic chemistry (52.38%)
- Biophysics (52.38%)
In recent works Stefan Matile was focusing on the following fields of study:
Biochemistry is frequently linked to Membrane in his study.
Stefan Matile performs integrative Organic chemistry and Stereochemistry research in his work.
He carries out multidisciplinary research, doing studies in Stereochemistry and Organic chemistry.
In his study, Stefan Matile carries out multidisciplinary Biophysics and Nanotechnology research.
He merges many fields, such as Nanotechnology and Biophysics, in his writings.
While working in this field, Stefan Matile studies both Fluorescence and Fluorescence microscope.
His study connects Pnictogen and Quantum mechanics.
His Pnictogen study frequently draws connections between adjacent fields such as Superconductivity.
Stefan Matile performs integrative study on Superconductivity and Quantum mechanics in his works.
Between 2019 and 2022, his most popular works were:
- Endosomal membrane tension regulates ESCRT-III-dependent intra-lumenal vesicle formation (51 citations)
- Conserved Functions of Ether Lipids and Sphingolipids in the Early Secretory Pathway (45 citations)
- Thiol-Mediated Uptake (44 citations)
In his most recent research, the most cited works focused on:
- Enzyme
- Lipid bilayer
- Gene
His research on Biochemistry often connects related topics like Cysteine.
His study connects Membrane potential and Biophysics.
His Membrane potential study frequently draws connections between related disciplines such as Biochemistry.
In his articles, he combines various disciplines, including Organic chemistry and Combinatorial chemistry.
He combines Combinatorial chemistry and Organic chemistry in his research.
His Membrane study frequently links to related topics such as Sphingomyelin.
As part of his studies on Sphingomyelin, he often connects relevant areas like Membrane.
His Quantum mechanics study frequently intersects with other fields, such as Fluorescence.
Stefan Matile regularly ties together related areas like Quantum mechanics in his Fluorescence studies.
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