16181 - 16200 of 18457 results
- Computational catalysis for sustainable chemistry: from reaction mechanisms to working devices | Debye Institute for Nanomaterials ScienceComputational catalysis for sustainable chemistry: from reaction mechanisms to working devices/en/research/debye-institute-for-nanomaterials-science/computational-catalysis-for-sustainable-chemistry-from-reaction-mechanisms-to-working-devices
- Femtosecond Optical Control of Magnetism: from fundamentals to submicron dynamics | Debye Institute for Nanomaterials ScienceFemtosecond Optical Control of Magnetism: from fundamentals to submicron dynamics/en/research/debye-institute-for-nanomaterials-science/femtosecond-optical-control-of-magnetism-from-fundamentals-to-submicron-dynamics
- Metal Organic Frameworks: a Versatile Class of Advanced Materials | Debye Institute for Nanomaterials ScienceMetal Organic Frameworks: a Versatile Class of Advanced Materials/en/research/debye-institute-for-nanomaterials-science/metal-organic-frameworks-a-versatile-class-of-advanced-materials
- Imaging Cellular Signaling one Molecule at a Time | Debye Institute for Nanomaterials ScienceImaging Cellular Signaling one Molecule at a Time/en/research/debye-institute-for-nanomaterials-science/imaging-cellular-signaling-one-molecule-at-a-time
- Single molecule reactivity studies in a liquid-STM | Debye Institute for Nanomaterials ScienceSingle molecule reactivity studies in a liquid-STM/en/research/debye-institute-for-nanomaterials-science/single-molecule-reactivity-studies-in-a-liquid-stm
- Subwavelength plasmonic and magnetic resonators to control photons and emitters | Debye Institute for Nanomaterials ScienceSubwavelength plasmonic and magnetic resonators to control photons and emitters/en/research/debye-institute-for-nanomaterials-science/subwavelength-plasmonic-and-magnetic-resonators-to-control-photons-and-emitters
- Floating on air | Debye Institute for Nanomaterials ScienceColloquia, Debye Institute for Nanomaterials Science/en/research/debye-institute-for-nanomaterials-science/floating-on-air
- Dopants and Charge Carriers in Colloidal Quantum Dots | Debye Institute for Nanomaterials ScienceDopants and Charge Carriers in Colloidal Quantum Dots/en/research/debye-institute-for-nanomaterials-science/dopants-and-charge-carriers-in-colloidal-quantum-dots
- Liquid-liquid phase transitions: a key to unlock the mystery of supercooling and glasses? | Debye Institute for Nanomaterials ScienceLiquid-liquid phase transitions: a key to unlock the mystery of supercooling and glasses?/en/research/debye-institute-for-nanomaterials-science/liquid-liquid-phase-transitions-a-key-to-unlock-the-mystery-of-supercooling-and-glasses
- Gold-palladium bimetallic catalysts for selective hydrogenation | Debye Institute for Nanomaterials ScienceGold-palladium bimetallic catalysts for selective hydrogenation/en/research/debye-institute-for-nanomaterials-science/gold-palladium-bimetallic-catalysts-for-selective-hydrogenation
- Solar highways: core-shell nanowires for high-efficiency solar conversion | Debye Institute for Nanomaterials ScienceSolar highways: core-shell nanowires for high-efficiency solar conversion/en/research/debye-institute-for-nanomaterials-science/solar-highways-core-shell-nanowires-for-high-efficiency-solar-conversion
- Sustainable Energy and the quest for sustainability | Debye Institute for Nanomaterials ScienceSustainable Energy and the quest for sustainability/en/research/debye-institute-for-nanomaterials-science/sustainable-energy-and-the-quest-for-sustainability
- Towards room-temperature H2 generation from C1-molecules and H2O | Debye Institute for Nanomaterials ScienceTowards room-temperature H2 generation from C1-molecules and H2O/en/research/debye-institute-for-nanomaterials-science/towards-room-temperature-h2-generation-from-c1-molecules-and-h2o
- Preparation of Oxide-Supported Metal Catalysts – A Surface Science Approach | Debye Institute for Nanomaterials SciencePreparation of Oxide-Supported Metal Catalysts – A Surface Science Approach/en/research/debye-institute-for-nanomaterials-science/preparation-of-oxide-supported-metal-catalysts-a-surface-science-approach
- Critical Casimir Interactions: New temperature control of nanoparticle assembly | Debye Institute for Nanomaterials ScienceCritical Casimir Interactions: New temperature control of nanoparticle assembly/en/research/debye-institute-for-nanomaterials-science/critical-casimir-interactions-new-temperature-control-of-nanoparticle-assembly