about
Plexciton Dirac points and topological modesThe nucleus of endothelial cell as a sensor of blood flow directionTemperature and carbon assimilation regulate the chlorosome biogenesis in green sulfur bacteria.Compressed Sensing for Multidimensional Spectroscopy Experiments.On the chemical bonding effects in the Raman response: benzenethiol adsorbed on silver clusters.Theoretical characterization of excitation energy transfer in chlorosome light-harvesting antennae from green sulfur bacteria.Exploring Electronic Structure and Order in Polymers via Single-Particle Microresonator Spectroscopy.Fast delocalization leads to robust long-range excitonic transfer in a large quantum chlorosome model.Atomistic study of energy funneling in the light-harvesting complex of green sulfur bacteria.Memory-Assisted Exciton Diffusion in the Chlorosome Light-Harvesting Antenna of Green Sulfur Bacteria.Strong coupling between chlorosomes of photosynthetic bacteria and a confined optical cavity mode.State-by-state investigation of destructive interference in resonance Raman spectra of neutral tyrosine and the tyrosinate anion with the simplified sum-over-states approachMapping Forbidden Emission to Structure in Self-Assembled Organic NanoparticlesMolecular Emission Near Metal Interfaces: The Polaritonic RegimeProbing biological light-harvesting phenomena by optical cavitiesBlood flow-induced Notch activation and endothelial migration enable vascular remodeling in zebrafish embryosErratum: Corrigendum: Strong coupling between chlorosomes of photosynthetic bacteria and a confined optical cavity modeAutonomous Molecular Design: Then and NowFast initialization of the spin state of an electron in a quantum dot in the Voigt configurationExciton transport in thin-film cyanine dye J-aggregatesQuantum Nonlinear Optics with Polar J-Aggregates in Microcavities
P50
Q27314746-13C7D9DA-8B74-4F1F-8FC2-C16C05CFDA69Q30551115-86638D23-EF5C-40CE-A8B8-4A9A6A52E1FAQ37204312-C8314A13-2ED0-4FB3-8762-3D814F4B1C5BQ40619755-ED48C09F-91FB-4A3A-9297-C3B1BEEDDC1EQ43261139-9B10B190-897A-4BE2-9B91-DEB2A2BA49C1Q44602492-4752C242-C163-4AA8-BD05-7710E7575037Q49601022-E541B9C1-E5C7-46DA-AA84-7A2A75C7DE13Q50439228-A1AC9B06-5DA1-467B-9415-11C849BC9C2BQ50464142-D46AC365-67BC-44A8-9F0B-E61490E5107FQ50491254-60D1DEFA-7321-424A-9FB3-631D95CC2BA2Q53249488-FD8797E3-0BC5-4964-8577-F605902F1B95Q57162458-D803853A-8BD9-4E85-A4DE-2386A6D14988Q58103758-C46118F6-2D69-4240-803F-06F2058E01DEQ58104803-393C1D69-CFA6-4485-943C-439FB65F09D7Q59450979-A30F54D1-7A5A-478A-9445-3CBE79BA058CQ60044759-79B810F0-BA13-4EA3-8090-B812997099AEQ61197382-7FE23AD6-2944-41EB-98C4-A6A9B743E5D8Q62488868-7F27A39E-FB55-408A-8EFE-127A12312658Q79943057-478EFAAE-1AB5-4C6D-BFCB-1F102CBCFEE3Q84618754-791E37D4-C3EA-4BC1-9A01-21CD053B3292Q85911008-C1B15E3A-67DA-47B1-8319-958D0ECB6DF1
P50
description
researcher ORCID ID = 0000-0003-1924-3961
@en
wetenschapper
@nl
name
Semion K. Saikin
@ast
Semion K. Saikin
@en
Semion K. Saikin
@es
Semion K. Saikin
@nl
Семён Константинович Сайкин
@ru
type
label
Semion K. Saikin
@ast
Semion K. Saikin
@en
Semion K. Saikin
@es
Semion K. Saikin
@nl
Семён Константинович Сайкин
@ru
prefLabel
Semion K. Saikin
@ast
Semion K. Saikin
@en
Semion K. Saikin
@es
Semion K. Saikin
@nl
Семён Константинович Сайкин
@ru
P106
P1153
6602826159
P31
P496
0000-0003-1924-3961