Professor Sir J. Fraser Stoddart
GPTKB entity
Statements (103)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
gptkb:physicist
|
| gptkbp:affiliatedWith |
gptkb:Northwestern_University
|
| gptkbp:awardedBy |
Royal_Society_Fellow
PhD_in_Chemistry |
| gptkbp:bornIn |
gptkb:Edinburgh,_Scotland
|
| gptkbp:collaboratedWith |
gptkb:Bernard_L._Feringa
gptkb:Jean-Pierre_Sauvage |
| gptkbp:contribution |
Development of molecular switches
|
| gptkbp:field |
Supramolecular chemistry
|
| gptkbp:hasAwards |
gptkb:Nobel_Prize_in_Chemistry
|
| gptkbp:hasCollaboratedWith |
gptkb:Bernard_L._Feringa
gptkb:Jean-Pierre_Sauvage |
| gptkbp:hasContribution |
Interdisciplinary research.
Public outreach in science. Advancements in nanotechnology. Development of molecular machines. Dynamic covalent chemistry. Innovation in chemistry. Intermolecular interactions. Molecular devices. Molecular electronics. Molecular recognition. Molecular robotics. Molecular scaffolds. Molecular sensors. Molecular switches. Nanostructured materials. Research on advancements in nanotechnology. Research on chemical education. Research on chemical synthesis. Research on innovation in chemistry. Research on interdisciplinary research. Research on intermolecular interactions. Research on molecular devices. Research on molecular electronics. Research on molecular machines. Research on molecular robotics. Research on molecular scaffolds. Research on molecular sensors. Research on molecular switches. Research on nanostructured materials. Research on public outreach in science. Research on supramolecular polymers. Self-assembly. Supramolecular polymers. Chemical_education. Chemical_nanotechnology. Chemical_synthesis. Nanomachines. |
| gptkbp:hasEducation |
gptkb:University_of_Edinburgh
|
| gptkbp:hasFieldOfUse |
Supramolecular_Chemistry
|
| gptkbp:hasInfluenceOn |
Nanotechnology
Supramolecular chemistry community |
| gptkbp:hasLocation |
Professor_at_Northwestern_University
|
| gptkbp:hasNationality |
British
|
| gptkbp:hasPublications |
Molecular_Machines:_A_New_Frontier_in_Chemistry
|
| gptkbp:hasResearchInterest |
gptkb:Nanomachines
gptkb:Stoddart_Group Biomaterials Computational chemistry Materials science Molecular recognition Organic chemistry Polymer chemistry Synthetic organic chemistry Theoretical chemistry Interdisciplinary research Surface chemistry Environmental chemistry Photochemistry Catalysis Organometallic chemistry Photovoltaics Nanomedicine Nanostructured materials Smart materials Catalytic processes Drug delivery systems Nanofabrication Self-assembly Functional materials Solid-state chemistry Colloid chemistry Molecular electronics Synthesis of complex molecules Molecular imaging Energy storage materials Supramolecular polymers Chemical_education Chemical_synthesis Chemical_biology Chemical_informatics Chemical_kinetics Chemical_sensors Molecular_Machines |
| https://www.w3.org/2000/01/rdf-schema#label |
Professor Sir J. Fraser Stoddart
|
| gptkbp:influencedBy |
Nobel Laureates
|
| gptkbp:knownFor |
Molecular machines
|
| gptkbp:members |
gptkb:Royal_Society
|
| gptkbp:nationality |
British
|
| gptkbp:publishes |
Molecular_Machines_and_Motors
|
| gptkbp:researchFocus |
Nanotechnology
|
| gptkbp:workLocation |
gptkb:United_States
|