about
Extraordinary room-temperature photoluminescence in triangular WS2 monolayersSelectively manipulable acoustic-powered microswimmers.Nanoscale reversible mass transport for archival memory.Artificial 'spin ice' in a geometrically frustrated lattice of nanoscale ferromagnetic islands.Low-Temperature Solution Synthesis of Few-Layer 1T '-MoTe2 Nanostructures Exhibiting Lattice Compression.Self-consistent nonlocal feedback theory for electrocatalytic swimmers with heterogeneous surface chemical kinetics.Optical identification of sulfur vacancies: Bound excitons at the edges of monolayer tungsten disulfide.Chiral diffusion of rotary nanomotors.Crystallites of magnetic charges in artificial spin ice.Evidence for ambient-temperature reversible catalytic hydrogenation in Pt-doped carbons.Nanomotor mechanisms and motive force distributions from nanorotor trajectories.Reversible intercalation of hexagonal boron nitride with Brønsted acids.Intrinsic magnetism of grain boundaries in two-dimensional metal dichalcogenides.Kinematic matrix theory and universalities in self-propellers and active swimmers.Microstructured optical fibers as high-pressure microfluidic reactors.Annealing a magnetic cactus into phyllotaxis.Guiding chiral self-propellers in a periodic potential.Systematic Enumeration of sp(3) Nanothreads.Catalytic motors for transport of colloidal cargo.Non-oxidative intercalation and exfoliation of graphite by Brønsted acids.Theory of carbomorph cycles.Ignoring your neighbors: moment correlations dominated by indirect or distant interactions in an ordered nanomagnet array.Metallic membranes with subwavelength complementary patterns: distinct substrates for surface-enhanced Raman scattering.Curvature-induced D-band Raman scattering in folded graphene.Benzene-derived carbon nanothreads.Dynamic interactions between fast microscale rotors.Prediction that uniaxial tension along <111> produces a direct band gap in germanium.Energy minimization and ac demagnetization in a nanomagnet array.Reciprocal space constraints create real-space anomalies in doped carbon nanotubes.Carbon nanostructures as an electromechanical bicontinuum.Electronic bisection of a single-wall carbon nanotube by controlled chemisorption.Universal behavior of nearly free electron states in carbon nanotubes.Theory of carbon nanocones: mechanical chiral inversion of a micron-scale three-dimensional object.Nanotube-substrate interactions: distinguishing carbon nanotubes by the helical angle.Theory of B(2)O and BeB(2) nanotubes: new semiconductors and metals in one dimension.Emergent, Collective Oscillations of Self-Mobile Particles and Patterned Surfaces under Redox ConditionsStochastic Heterostructures and Diodium in B/N-Doped Carbon Nanotubes1-Adamantanethiolate Monolayer Displacement Kinetics Follow a Universal FormSoggy origamiComputational design of direct-bandgap semiconductors that lattice-match silicon
P50
Q28280242-1314B19B-714D-461B-97FB-D23F80529407Q30410562-58A3556C-3F27-4FAD-B6B5-344540CADF0FQ33435958-03E1EDAA-B577-46F3-BD02-8D3137A5943DQ34485926-90CE4C70-BCA7-40DA-8473-D3B0FD60F95BQ35902700-B4CFFB1E-9FDA-4EE0-8C43-63D6C5843683Q40739356-8F9B8773-9109-4EB4-BE47-3C32EF4A35C9Q41875896-76E9143E-3F59-4498-9AC4-3E84DA267F98Q44639836-12F5C94C-9C60-4535-A919-D8D74C208FFCQ45172173-319F95A9-5E4B-4771-9910-5EE25AD7DAC5Q45339520-FF903D9A-8C36-4E41-8B06-58274E97273DQ46231639-F903C157-4FE7-4B18-A5F5-5DE83737C725Q46599905-549F0B3B-D64A-417B-8796-5C015C9183B5Q47617193-CC7A36C7-B9C0-475B-9F9C-26508680F8FDQ51067727-E0A19202-5BD1-4A55-A7C7-4232877A0A76Q51246102-E4C57C94-318E-45A6-8BF6-C076E9A1E2FBQ51696893-9A312217-F6B9-4C69-AE4C-192B82C0C543Q51707207-1061FCF5-D38A-415D-A194-2734CCC1692BQ51835505-AFFA6721-1FA9-4A92-B2D9-7BB0ADEC4A8CQ51888362-3A6A5897-8133-4BCC-825C-EC7D5382AC50Q53253825-DAE6240C-863E-4F9F-840B-94AD7B2B7ECEQ53334158-7C89CD52-8A3F-4982-B9DE-C4C7950CD14CQ53400978-50693961-F919-4268-978A-E372EFE743DFQ53421189-55E8094F-9934-4BCA-8E3D-A0F3295B1FB9Q53434901-DB854B3E-6050-4C07-A3F2-FA6A396B2DD9Q53438903-5C42AF61-101D-4B9A-A6B9-6BA9B9EB73FAQ53503743-DBD37B72-975F-42BB-8EB3-C58158EA0C2CQ53505800-BFA8E4DF-3E84-4F38-A9B3-57EDCF386344Q53531041-FAD047FB-1D93-463A-A89C-EFEC2F50FA4AQ53551029-EDAF8257-E7F2-4333-B9A4-1F8855F1934AQ53565279-3BD81587-FFDC-4948-9C0C-1F92C804459CQ53565290-58A418A9-603C-4F44-B084-38D31BB7283FQ53594300-0741B208-99DE-48B9-A3B8-7192AA5563D8Q53626883-AE1562DC-2B88-4730-9AD6-43C40AFE8F13Q53643171-33A74464-FA4A-4634-9808-5854A96BC6FAQ53667250-A5C3440A-517B-43A7-B286-84CD9B9DE16CQ57256536-93EDA9C3-AD7B-4616-A821-76B1A31DEFC8Q57395053-D690A6F7-A4EF-4150-99E3-C0F1F5F7CC6BQ58467672-2386EB37-FBC8-4F06-B305-5F9A9778E19EQ58930234-C336F324-C4EE-4F71-A67C-E9CB51211EF6Q59086007-0BBF1D9D-C67C-472C-A4BF-0BE08558E9FC
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Vincent H Crespi
@nl
Vincent H Crespi
@sl
Vincent H. Crespi
@en
Vincent H. Crespi
@es
type
label
Vincent H Crespi
@nl
Vincent H Crespi
@sl
Vincent H. Crespi
@en
Vincent H. Crespi
@es
prefLabel
Vincent H Crespi
@nl
Vincent H Crespi
@sl
Vincent H. Crespi
@en
Vincent H. Crespi
@es
P106
P1153
7006144859
P21
P31
P496
0000-0003-3846-3193