about
Allosteric Regulation of the Rotational Speed in a Light-Driven Molecular MotorRobust rotation of rotor in a thermally driven nanomotorMacrocyclic shape-persistency of cyclo[6]aramide results in enhanced multipoint recognition for the highly efficient template-directed synthesis of rotaxanes.Correlated rotational switching in two-dimensional self-assembled molecular rotor arraysMastering the non-equilibrium assembly and operation of molecular machines.Artificial molecular motors.How molecular motors work - insights from the molecular machinist's toolbox: the Nobel prize in Chemistry 2016.Introducing Stable Radicals into Molecular Machines.Impact of mechanical bonding on the redox-switching of tetrathiafulvalene in crown ether-ammonium [2]rotaxanes.Ultrathin two-dimensional porous organic nanosheets with molecular rotors for chemical sensing.Self-Assembly of Catenanes from Lasso Peptides.Molecular photoswitches mediating the strain-driven disassembly of supramolecular tubules.Direct Observation of Hemithioindigo-Motor Unidirectionality.Rotary and linear molecular motors driven by pulses of a chemical fuel.Temporal Control over Transient Chemical Systems using Structurally Diverse Chemical Fuels.Complexation Between (O-Methyl)6 -2,6-Helic[6]arene and Tertiary Ammonium Salts: Acid/Base- or Chloride-Ion-Responsive Host-Guest Systems and Synthesis of [2]Rotaxane.A pH-Dependent, Mechanically Interlocked Switch: Organometallic [2]Rotaxane vs. Organic [3]Rotaxane.High-Fidelity Multistate Switching with Anion-Anion and Acid-Anion Dimers of Organophosphates in Cyanostar Complexes.Braking of a Light-Driven Molecular Rotary Motor by Chemical Stimuli.Reversible Pressure-Controlled Depolymerization of a Copper(II)-Containing Coordination Polymer.Stochastic pumping of non-equilibrium steady-states: how molecules adapt to a fluctuating environment.Making and Operating Molecular Machines: A Multidisciplinary Challenge.Transport and diffusion properties of Brownian particles powered by a rotating wheel.2,2'-Biphen[n]arenes (n = 4-8): one-step, high-yield synthesis, and host-guest properties.Mapping current fluctuations of stochastic pumps to nonequilibrium steady states.Rotating-Electric-Field-Induced Carbon-Nanotube-Based Nanomotor in Water: A Molecular Dynamics Study.Dynamic Self-Assembly Encodes A Tri-stable Au-TiO2 Photocatalyst.Optical vs. chemical driving for molecular machines.A bio-hybrid DNA rotor-stator nanoengine that moves along predefined tracks.Variations in the fuel structure control the rate of the back and forth motions of a chemically fuelled molecular switch.Molecular machines with bio-inspired mechanisms.Shuttling Rates, Electronic States, and Hysteresis in a Ring-in-Ring Rotaxane.A ferrocene based switchable molecular folding ruler.Artificial molecular motors: Running on information.Supramolecularly directed rotary motion in a photoresponsive receptor.Inchworm movement of two rings switching onto a thread by biased Brownian diffusion represent a three-body problemChirality in rotaxanes and catenanesStructural optimization of pseudorotaxane-forming oligonucleotides for efficient and stable complex formationNews Feature: What's the best way to build a molecular machine?Toward Fast and Efficient Visible-Light-Driven Molecular Motors: A Minimal Design
P2860
Q28821411-4ACA864E-80D1-449F-B02B-03A80EE996E8Q30358882-1D3A9149-09EF-459A-9F71-9FB03A3611C9Q33588383-BFD511DD-C9D8-438F-897A-9A24D96405D5Q33882244-AA60F134-FCD7-40C6-9595-288AD1D085B7Q39198172-421D02B1-5D72-4275-8E26-8FDEC0F1F341Q39251922-A1371280-3C2D-4CE4-B0C6-89FEEC227FF0Q39345217-82B8706A-80AA-44EB-B4A1-14F36B6F7AC1Q41849391-BA9E5723-D542-4A4D-8C3B-BFA6671F146EQ42279081-ACAFC7ED-6159-4517-90B0-61191BC0EF2BQ42630139-D6378C46-0E9F-45F3-83AC-79091D1879C2Q43034901-DD30A5F6-9C97-497E-B2A3-6C5BF64D18A0Q47566367-D1515097-06C6-47BF-8FED-B3664D47F333Q47823218-76C11DD2-AEC1-48BF-86D1-71E57772D795Q48051220-2A423C1D-84DD-41DC-9233-C1F550AC6A59Q48060891-A7ABE249-599F-42D5-B67A-7FD2F108421BQ48132928-94EA21EA-96E1-43D0-897B-8E046120469AQ48167866-7F6E7A77-8374-4AE1-B1BB-D637663C4E37Q48189426-5180E600-F75F-4CD1-AF03-44417957C225Q48273031-B985E435-8262-4CF7-A9E5-CA83A8166C2BQ48366560-1185373D-EE48-40E5-ACDB-DAEF7350810CQ49834127-8B1B35C9-0524-4CCD-88C6-42937444D46AQ49882701-928866FC-F2C0-46FF-A313-79CB58E9EA7EQ49960894-9FFF37AA-83F0-45B8-BD4D-59AB5A8DB69CQ50085789-F024174B-2BDE-4B19-8B5E-146213DB565FQ50723075-2CA5B162-939F-4551-8FC5-D5C972A3E468Q50933692-D04BD392-1BF9-48CC-B866-2E126040206BQ51095073-DF751BD1-4A98-4791-A6BB-D86D58F02FE4Q51757516-DAE9C359-9815-4D7E-8D2A-56010F5925B4Q52327390-07BA3A4D-04B4-491E-BA4F-2BC789AA295CQ52328569-F3D5229D-B9D7-4BE3-B6DD-4E59115C790FQ52372536-F95080F5-955A-46CB-895E-D1CBD2B50FB0Q52597444-94590783-2CCE-4B5F-B0D7-4D371533837AQ53203364-FF54B727-A063-4E8E-B19C-B76A2E12D6E1Q54147589-1E972AE1-B23A-4296-BDFD-2DFF9D2EF5FBQ55249913-6AE539D1-BB85-4451-A7F7-E3A02AE5576BQ56221430-D117A80C-95D1-4771-8E5B-EC75B5A0354BQ56482643-675C20C8-A9EB-4F0A-BF6A-FB6EFCBEE0E9Q58704419-5250F3F4-9657-4E3B-A813-8BC9AD107CF3Q58723896-AF1966D1-EFF7-405D-A228-C9EBC02BDC3EQ58803939-A8DF1B6E-74B1-4BDB-B014-0624D8A011F4
P2860
description
2016 nî lūn-bûn
@nan
2016 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2016 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2016年の論文
@ja
2016年論文
@yue
2016年論文
@zh-hant
2016年論文
@zh-hk
2016年論文
@zh-mo
2016年論文
@zh-tw
2016年论文
@wuu
name
An autonomous chemically fuelled small-molecule motor
@ast
An autonomous chemically fuelled small-molecule motor
@en
type
label
An autonomous chemically fuelled small-molecule motor
@ast
An autonomous chemically fuelled small-molecule motor
@en
prefLabel
An autonomous chemically fuelled small-molecule motor
@ast
An autonomous chemically fuelled small-molecule motor
@en
P2860
P50
P356
P1433
P1476
An autonomous chemically fuelled small-molecule motor
@en
P2093
Miriam R Wilson
Nathalie Lebrasseur
P2860
P2888
P304
P356
10.1038/NATURE18013
P407
P577
2016-06-01T00:00:00Z
P6179
1053038855