about
Integrated 3D-printed reactionware for chemical synthesis and analysisEngineering polyoxometalates with emergent properties.From linking of metal-oxide building blocks in a dynamic library to giant clusters with unique properties and towards adaptive chemistry.Cyclic growth of hierarchical structures in the aluminum-silicate system.Designing artificial photosynthetic devices using hybrid organic-inorganic modules based on polyoxometalates.Resonance tunneling electron-vibrational spectroscopy of polyoxometalates.Challenges in polyoxometalate-mediated aerobic oxidation catalysis: catalyst development meets reactor design.Capsules with highly active pores and interiors: versatile platforms at the nanoscale.Electrostatically Directed Self-Assembly of Ultrathin Supramolecular Polymer MicrocapsulesReal-time ion-flux imaging in the growth of micrometer-scale structures and membranes.Inorganic protocells: gated access to microreactors.Electrostatically gated membrane permeability in inorganic protocells.The origins of life: old problems, new chemistries.Physical autocatalysis driven by a bond-forming thiol-ene reaction.Spontaneous Assembly of an Organic-Inorganic Nucleic Acid Z-DNA Double-Helix Structure.Configurable 3D-Printed millifluidic and microfluidic 'lab on a chip' reactionware devices.Spontaneous structuration in coacervate-based protocells by polyoxometalate-mediated membrane assembly.A synthetic approach to abiogenesis.Autonomous Droplet ArchitecturesSpontaner Aufbau einer organisch-anorganischen Nukleinsäure-Z-DNA-Doppelhelix-Struktur
P2860
Q28314888-1455B67D-CDC6-4CCD-829B-7061326621FFQ34363365-7B999150-D090-4222-9BD7-BEEDBC70778DQ34403250-3B23F761-26E7-4691-9F29-04C955B8435CQ35218019-AF33F494-B104-4F35-A017-E1232AF0B167Q38696892-15AB01D4-27B4-4B4A-8DCA-F11285E7C9CCQ38773417-FCA64754-1D45-4C9F-964E-BF6323366618Q38806413-A5706219-B30F-4925-A134-6DE0EC020647Q39228083-AF4B26A9-91A7-41AB-9560-2ACC025C01F1Q42123793-B7F754A2-98D8-4942-B311-CE37DC9AE485Q45156767-4C37B8AE-FCE5-430A-8329-1784D8396EBEQ45821274-6ABEF374-3802-4315-ABB0-0872B9422218Q46211979-F5BCEEA8-1275-42E4-83D7-BB4F508108A5Q47807806-87F16EE8-61A5-4FFD-8E92-98825E5D5AE1Q47832323-7F997C09-F8AF-4491-B1D7-DBF40E523922Q48188849-A4A79ED8-78ED-4BFB-9213-569D8E2F3058Q51538080-0448764E-5562-4833-A2E2-3B096C446151Q53067141-132728EF-6469-432D-96D4-A2761C8AA1AAQ53563129-4E6FF529-B11D-4153-90C7-2AA5A149BBD9Q57053549-27F75ED6-E28B-4E09-8B95-E7819028964AQ57382833-355738A3-4F0D-4620-B22B-281D8E103A99
P2860
description
article
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована у вересні 2011
@uk
name
Modular Redox-Active Inorganic Chemical Cells: iCHELLs
@en
Modular Redox-Active Inorganic Chemical Cells: iCHELLs
@nl
type
label
Modular Redox-Active Inorganic Chemical Cells: iCHELLs
@en
Modular Redox-Active Inorganic Chemical Cells: iCHELLs
@nl
prefLabel
Modular Redox-Active Inorganic Chemical Cells: iCHELLs
@en
Modular Redox-Active Inorganic Chemical Cells: iCHELLs
@nl
P2093
P2860
P50
P356
P1476
Modular redox-active inorganic chemical cells: iCHELLs
@en
P2093
De-Liang Long
Geoffrey J T Cooper
Ross Winter
P2860
P304
10373-10376
P356
10.1002/ANIE.201105068
P407
P577
2011-09-08T00:00:00Z