about
Enzyme Catalysis To Power Micro/NanomachinesReversed Janus Micro/Nanomotors with Internal Chemical EngineA Compartmentalized Out-of-Equilibrium Enzymatic Reaction Network for Sustained Autonomous Movement.Designing Micro- and Nanoswimmers for Specific ApplicationsBubble-Free Propulsion of Ultrasmall Tubular Nanojets Powered by Biocatalytic ReactionsIntroducing asymmetric functionality into MOFs via the generation of metallic Janus MOF particles.Enzyme-Operated DNA-Based Nanodevices.Self-thermophoretic motion of controlled assembled micro-/nanomotors.Self-propelling micro-nanorobots: challenges and future perspectives in nanomedicine.Fuel-Free Synthetic Micro-/Nanomachines.Materials learning from life: concepts for active, adaptive and autonomous molecular systems.Mobile microrobots for bioengineering applications.Micro/nanomotors towards in vivo application: cell, tissue and biofluid.Reactive Inkjet Printing of Biocompatible Enzyme Powered Silk Micro-Rockets.Formation of Single-Holed Cobalt/N-Doped Carbon Hollow Particles with Enhanced Electrocatalytic Activity toward Oxygen Reduction Reaction in Alkaline MediaOrthogonal navigation of multiple visible-light-driven artificial microswimmers.Targeting and isolation of cancer cells using micro/nanomotors.Nano/microvehicles for efficient delivery and (bio)sensing at the cellular level.Facile fabrication of mesoporous silica micro-jets with multi-functionalities.Tumor Microenvironment-Enabled Nanotherapy.Light-driven micro/nanomotors: from fundamentals to applications.A Silicon Nanowire as a Spectrally Tunable Light-Driven Nanomotor.Forecastable and Guidable Bubble-Propelled Microplate Motors for Cell Transport.Catalysis-Driven Self-Thermophoresis of Janus Plasmonic Nanomotors.Self-propelled supramolecular nanomotors with temperature-responsive speed regulation.Enzyme-coated Janus nanoparticles that selectively bind cell receptors as a function of the concentration of glucose.Light-induced propulsion of a giant liposome driven by peptide nanofibre growth.Chitosan-Covered Pd@Pt Core–Shell Nanocubes for Direct Electron Transfer in Electrochemical Enzymatic Glucose Biosensor.A Supramolecular Approach to Nanoscale Motion: Polymersome-Based Self-Propelled NanomotorsHollow Mesoporous Functional Hybrid Materials: Fascinating Platforms for Advanced ApplicationsAu–Mesoporous silica nanoparticles gated with disulfide-linked oligo(ethylene glycol) chains for tunable cargo delivery mediated by an integrated enzymatic control unitMicro/Nanomachines and Living Biosystems: From Simple Interactions to MicrocyborgsGeometry Design, Principles and Assembly of MicromotorsLight-Powered Micro/NanomotorsA Review of Fast Bubble-Driven Micromotors Powered by Biocompatible Fuel: Low-Concentration Fuel, Bioactive Fluid and Enzyme
P2860
Q28817463-DDF7FF1D-464C-47B1-A57E-804D6ABE38F9Q28817469-FC340342-0DC5-4487-99E8-CCDAC4D7D9F3Q28818396-E20AEB84-58B1-4BF9-B47B-5EC32FD417D3Q28818795-B7973CED-6C43-4818-BD9B-B8E33EBC2145Q30834747-4A02FEBC-8752-4C65-9666-1ACD2698687BQ35931586-79ACD352-7776-4B1C-AE75-8109C4582F19Q36364007-9B81FA2B-0E07-403C-903E-0E9A4CADE2E6Q38680869-01590209-B1FC-4565-993D-A828CFB432C7Q38681808-E7994A82-1804-45C3-A252-31B9FBD9AF21Q38777722-2C972B01-37E8-449E-B7C5-F8AA19836782Q39108934-3A2FCAC7-77AC-4501-A929-EE9BB76599C4Q39289990-F5523333-CBDF-44C7-AAD0-17496A7ECBAEQ39318047-9146448F-75BE-484C-B41C-F3F9EEF100F7Q40384918-B7547992-2128-4F89-A13C-FB22143D423EQ42379318-D837659C-5B3D-4BD2-A39C-8489D88752B0Q44909961-23E26D2A-68AA-440F-A3D1-ADE83FDD155BQ45983589-C351700C-3306-45CE-972B-762C206666AFQ46465991-264F28D9-E4CA-402A-88DE-D42A202CD73FQ47168969-A0C04DFA-542D-4374-8D8A-DA1EE4705C82Q47761233-5071D261-CF98-4137-89C9-8FCE9FA6B070Q47928952-E68B98EF-F7BA-4029-B8FE-4A2439EB7DE0Q48033039-EEB34111-F6D8-4114-A2F9-5146376B8FBBQ50934060-36D02B64-F60C-4793-8D72-1F7E5EA6AF69Q51085287-5BFEC920-F6C3-476E-AE6E-3115EAAA2AE9Q53342459-0A493782-5A68-4959-8595-26EA25F4E460Q53345402-8C77E262-D23A-456A-8C20-41CE95B4043EQ55214385-67A50D24-861E-47B4-997C-E6FD5269A9F2Q55665184-9AD67325-E241-42E6-9119-506DF307DC70Q57155220-3C064DE0-9B95-4B3B-9977-73B33E3C0277Q57340688-EFE4A10F-3115-4EDB-B1FA-053BD09AB3B3Q57401033-BD438CC9-35B2-47F9-A39B-C69A86728452Q58491222-43E06865-B306-4180-A455-698051FEFBC4Q58576449-18D09DE8-3B7E-4188-ADE4-63C38AB1353CQ58577144-B061CC76-6331-4396-B6E7-64816779DBACQ58716420-B6C088CE-9AA5-4C23-A63A-DEF1AF5D43F4
P2860
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Enzyme-Powered Hollow Mesoporous Janus Nanomotors.
@en
type
label
Enzyme-Powered Hollow Mesoporous Janus Nanomotors.
@en
prefLabel
Enzyme-Powered Hollow Mesoporous Janus Nanomotors.
@en
P2093
P1433
P1476
Enzyme-Powered Hollow Mesoporous Janus Nanomotors.
@en
P2093
Albert Miguel-López
Kersten Hahn
Samuel Sánchez
Urban-Raphael Albrecht
P304
P356
10.1021/ACS.NANOLETT.5B03100
P407
P577
2015-10-05T00:00:00Z