about
A voltage-dependent fluorescent indicator for optogenetic applications, archaerhodopsin-3: Structure and optical properties from in silico modeling5-Azido-2-aminopyridine, a new nitrene/nitrenium ion photoaffinity labeling agent that exhibits reversible intersystem crossing between singlet and triplet nitrenes.Non-enzymatic sensors based on in situ laser-induced synthesis of copper-gold and gold nano-sized microstructures.An artificial molecular switch that mimics the visual pigment and completes its photocycle in picoseconds.Color Tuning in rhodopsins: the origin of the spectral shift between the chloride-bound and anion-free forms of halorhodopsin.Global investigation of potential energy surfaces for the pyrolysis of C(1)-C(3) hydrocarbons: toward the development of detailed kinetic models from first principles.Modeling, preparation, and characterization of a dipole moment switch driven by Z/E photoisomerization.Acceleration of the Z to E photoisomerization of penta-2,4-dieniminium by hydrogen out-of-plane motion: theoretical study on a model system of retinal protonated Schiff base.An experimental and theoretical study on the formation of 2-methylnaphthalene (C11H10/C11H3D7) in the reactions of the para-tolyl (C7H7) and para-tolyl-d7 (C7D7) with vinylacetylene (C4H4).The ultrafast photoisomerizations of rhodopsin and bathorhodopsin are modulated by bond length alternation and HOOP driven electronic effects.Structure of the photochemical reaction path populated via promotion of CF(2)I(2) into its first excited state.Computational Photobiology and BeyondFormation of 6-methyl-1,4-dihydronaphthalene in the reaction of the p-tolyl radical with 1,3-butadiene under single-collision conditionsA crossed molecular beam and ab initio study on the formation of 5- and 6-methyl-1,4-dihydronaphthalene (C11H12) via the reaction of meta-tolyl (C7H7) with 1,3-butadiene (C4H6)A Comparative Study of Modern Homology Modeling Algorithms for Rhodopsin Structure PredictionIn situ laser-induced codeposition of copper and different metals for fabrication of microcomposite sensor-active materials
P50
Q30401305-9704F28D-CBC5-42A2-9262-51581533DBB7Q34384362-5BD28884-EF9B-4FA3-8154-5F7AB2EB3CAEQ36322603-5E2055E7-36DB-4BD3-8752-F48DB4D5AAA0Q36976803-908D4D65-9888-4ADA-B68D-63D157E6FAEBQ37205731-4494F145-64B4-4C98-BDC7-2C9AB0473794Q40469762-9746E287-C487-4BB6-B19C-17BB7903BAD5Q43009728-BD35EB45-4D6D-4244-BE7A-FC11F3BB79D3Q43265989-7B6A2617-EEA3-4CA1-A2AF-B6938EF663A1Q46916953-533DB0E7-A9BB-4F85-A28F-8961B98645CEQ50526264-82177622-8562-49F6-9565-2AA599578B72Q50584599-253BE728-22D6-4413-BAED-61069EFE912DQ59463645-57F6665D-52EB-4A8F-ADB9-AA93B737CB14Q86017748-28C1CA02-1B91-402A-B683-ED499AE4B8F7Q86824605-989C8660-5F2A-4983-98B4-2F5DD2953810Q90828785-1D119FBD-988B-4FF4-A5D4-FFF4AEDB87C2Q93157616-DFADE28C-8AE6-437A-A82E-3FC86650C401
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Mikhail N Ryazantsev
@ast
Mikhail N Ryazantsev
@en
Mikhail N Ryazantsev
@es
Mikhail N Ryazantsev
@nl
type
label
Mikhail N Ryazantsev
@ast
Mikhail N Ryazantsev
@en
Mikhail N Ryazantsev
@es
Mikhail N Ryazantsev
@nl
prefLabel
Mikhail N Ryazantsev
@ast
Mikhail N Ryazantsev
@en
Mikhail N Ryazantsev
@es
Mikhail N Ryazantsev
@nl
P106
P1153
25722313700
P31
P496
0000-0003-3413-1706