Light-controlled self-assembly of reversible and irreversible nanoparticle suprastructures.
about
Reconfigurable optical assembly of nanostructures.Femtosecond Laser-Controlled Tip-to-Tip Assembly and Welding of Gold NanorodsReshaping, Fragmentation, and Assembly of Gold Nanoparticles Assisted by Pulse LasersGreat expectations: can artificial molecular machines deliver on their promise?Catalytically powered dynamic assembly of rod-shaped nanomotors and passive tracer particles.Dissipative self-assembly of particles interacting through time-oscillatory potentials.A photoresponsive Au25 nanocluster protected by azobenzene derivative thiolates.Controlling the synthesis and assembly of silver nanostructures for plasmonic applications.Localized template-driven functionalization of nanoparticles by dynamic combinatorial chemistry.Capillary-Force-Assisted Optical Tuning of Coupled Plasmons.Relationship between dynamical entropy and energy dissipation far from thermodynamic equilibrium.Size Switchable Supramolecular Nanoparticle Based on Azobenzene Derivative within Anionic Pillar[5]arene.Electrostatics at the nanoscale.Design and application of inorganic nanoparticle superstructures: current status and future challenges.Organic photoresponse materials and devices.Photochromic materials: more than meets the eye.Tailoring polymeric micelles to optimize delivery to solid tumors.Organic switches for surfaces and devices.Colloidal superparticles from nanoparticle assembly.Nanoparticle assemblies: dimensional transformation of nanomaterials and scalability.Spiropyran-based dynamic materials.Metal nanoparticles with liquid-crystalline ligands: controlling nanoparticle superlattice structure and properties.Supramolecular systems chemistry.Morphology control in biphasic hybrid systems of semiconducting materials.Photoswitchable fluorescent nanoparticles and their emerging applications.From dynamic self-assembly to networked chemical systems.Artificial Molecular Machine Immobilized Surfaces: A New Platform To Construct Functional Materials.Tactic, reactive, and functional droplets outside of equilibrium.Photoacoustic and photothermal cytometry using photoswitchable proteins and nanoparticles with ultrasharp resonances.Materials learning from life: concepts for active, adaptive and autonomous molecular systems.Reversible control of nanoparticle functionalization and physicochemical properties by dynamic covalent exchange.The shape of Au8: gold leaf or gold nugget?Co-assembled thin films of Ag nanowires and functional nanoparticles at the liquid-liquid interface by shaking.Thermoresponsive assembly of charged gold nanoparticles and their reversible tuning of plasmon coupling.Controlling crystal self-assembly using a real-time feedback scheme.Photochemical Control over Oscillations in Chemical Reaction Networks.Photochromism into nanosystems: towards lighting up the future nanoworld.Tuning the collective switching behavior of azobenzene/Au hybrid materials: flexible versus rigid azobenzene backbones and Au(111) surfaces versus curved Au nanoparticles.Immobilizing Organic-Based Molecular Switches into Metal-Organic Frameworks: A Promising Strategy for Switching in Solid State.Celebrating Soft Matter's 10th Anniversary: Approaches to program the time domain of self-assemblies.
P2860
Q27342159-6BD00C6F-1FDF-4BA3-9554-756D6DA63598Q28828392-49E5D728-305F-422F-AA60-E3193CBEFB5CQ28834479-6317B389-3654-40D1-BC3A-19C4FE833575Q29302899-F0CEDB1F-D1AD-4FBA-82FE-D4CEEC630A51Q30439492-6A84209D-07BB-44CE-B278-22BB4FC74912Q33919799-A5F03328-5795-44DA-B4AD-E5EBCC53A31CQ34301792-514A10F0-C592-43E9-A28F-A3686841D9B0Q35034007-DA9A7625-0698-46F1-A13D-4FA9BF29EAA8Q35557937-2EA067D9-BB88-4DD5-90D1-6086BFD9F870Q35785455-B196C3AE-7741-4A65-B731-9FC7408D4B3BQ37236448-CC31C12F-A2BE-40E1-9218-9B9C33483EFFQ37416871-BB959ABD-5FDE-48BD-B1D5-246AD993F9E5Q37842183-8BF3E4A0-1952-4C70-A31B-8A0A7922A6ECQ37882615-F6F71148-A60D-4FB3-931A-B86872D75A7FQ37967147-F7459EAC-B162-4824-9E71-38899F1BCDF4Q38036616-A253EFE6-A6B2-487B-BA0D-62EB32115096Q38038896-FD83D48C-7A11-478F-A29D-00B1C0A59412Q38039035-EECDEB0A-50CE-4C91-B416-621E2551F196Q38056054-4728A4DE-7761-486D-BCEF-1B1AB2454D08Q38086055-6555E680-2882-4083-9F25-19C0FBC0D9B3Q38131712-1E89E0D9-0C05-49CB-B496-247CAB074C16Q38208770-D244F6D4-8677-450E-9160-70E5D29B0484Q38344357-21F8ED4D-B2DF-460E-9FDB-56D23B13C0CAQ38367431-A8AED108-87AA-4586-91C9-2135A9FE4120Q38601571-8F255761-8556-47A2-BFBB-A59F8C4A5A8FQ38658247-40666BF7-8D60-4B9D-97C4-5F6D1E9F2814Q38683092-5AC48575-1164-4005-8D4B-5EB5F744292AQ38854303-9ACD9D85-A681-40D8-852F-FC137A04C667Q39060239-DCD58229-9466-44CC-AFCC-23A12D36EEE5Q39108934-31DC7264-9A5D-4F33-A39F-B0BDE5410DF3Q39958002-1A295C3B-72FC-4DED-A552-C4F6AAC48D54Q44317685-5F0FE0BC-2530-4EAA-800A-7F44AB73589AQ44327762-EEE4B433-6942-42E8-96CE-C97784F7DB61Q46204169-4AF85982-97F8-4D38-940E-9D76F2EDCB2BQ46851709-901015F1-55B0-4A55-8B50-00466876D348Q47122124-501891C5-F884-41DA-A07F-E7763EC87B3CQ47240597-5ABF669E-3B09-4378-9D95-78187591C512Q47413150-8B5F8F67-1E6D-4299-B98E-92315CF3F540Q47949158-20D64513-452E-4746-8252-48808FF91D43Q47978174-BC8F5AF9-473C-4A3F-864E-7DF7587A3493
P2860
Light-controlled self-assembly of reversible and irreversible nanoparticle suprastructures.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Light-controlled self-assembly ...... nanoparticle suprastructures.
@ast
Light-controlled self-assembly ...... nanoparticle suprastructures.
@en
type
label
Light-controlled self-assembly ...... nanoparticle suprastructures.
@ast
Light-controlled self-assembly ...... nanoparticle suprastructures.
@en
prefLabel
Light-controlled self-assembly ...... nanoparticle suprastructures.
@ast
Light-controlled self-assembly ...... nanoparticle suprastructures.
@en
P2093
P2860
P356
P1476
Light-controlled self-assembly ...... nanoparticle suprastructures.
@en
P2093
Bartosz A Grzybowski
Kyle J M Bishop
Rafal Klajn
P2860
P304
10305-10309
P356
10.1073/PNAS.0611371104
P407
P577
2007-06-11T00:00:00Z