Add to ORKGDisulfide bonds are pivotal for the structure, function, and stability of proteins, and understanding ultraviolet (UV)-induced S-S bond cleavage is highly relevant for elucidating the fundamental mechanisms underlying protein photochemistry. Here, the near-UV photodecomposition mechanisms in gas-phase dimethyl disulfide, a prototype system with a S-S bond, are probed by ultrafast transient X-ray absorption spectroscopy. The evolving electronic structure during and after the dissociation is simultaneously monitored at the sulfur L1,2,3-edges and the carbon K-edge with 100 fs (FWHM) temporal resolution using the broadband soft X-ray spectrum from a femtosecond high-order harmonics light source. Dissociation products are identified with the he...
In order to study the stability of the disulfide chemical bond in molecules subjected to a flux of h...
Ultrafast photodissociation and geminate recombination reactions of aromatic disulfides and thiols a...
Structural imaging of transient excited-state species is a key goal of molecular physics, promising ...
Disulfide bonds are pivotal for the structure, function, and stability of proteins, and understandin...
Disulfide bonds are pivotal for the structure, function, and stability of proteins, and understandin...
We have investigated dimethyl disulfide as the basic moiety for understanding the photochemistry of ...
We report on the UV-induced photochemistry of the biologically relevant sulfur-containing thiol grou...
CO2 and KrF laser-induced dissociation of dimethyl disulfide opens two major primary dissociation ch...
International audienceDisulfide bonds (S−S) play a central role in stabilizing the native 9 structur...
International audienceThe subpicosecond ultraviolet observation of a sulfur−sulfur bond making (2σ/1...
For a molecule to survive evolution and to become a key building block in nature, photochemical stab...
The structural dynamics of photoexcited gas-phase carbon disulfide (CS2) molecules are investigated ...
We have observed details of the internal motion and dissociation channels in photoexcited carbon dis...
Structural imaging of transient excited-state species is a key goal of molecular physics, promising ...
We have observed details of the internal motion and dissociation channels in photoexcited carbon dis...
In order to study the stability of the disulfide chemical bond in molecules subjected to a flux of h...
Ultrafast photodissociation and geminate recombination reactions of aromatic disulfides and thiols a...
Structural imaging of transient excited-state species is a key goal of molecular physics, promising ...
Disulfide bonds are pivotal for the structure, function, and stability of proteins, and understandin...
Disulfide bonds are pivotal for the structure, function, and stability of proteins, and understandin...
We have investigated dimethyl disulfide as the basic moiety for understanding the photochemistry of ...
We report on the UV-induced photochemistry of the biologically relevant sulfur-containing thiol grou...
CO2 and KrF laser-induced dissociation of dimethyl disulfide opens two major primary dissociation ch...
International audienceDisulfide bonds (S−S) play a central role in stabilizing the native 9 structur...
International audienceThe subpicosecond ultraviolet observation of a sulfur−sulfur bond making (2σ/1...
For a molecule to survive evolution and to become a key building block in nature, photochemical stab...
The structural dynamics of photoexcited gas-phase carbon disulfide (CS2) molecules are investigated ...
We have observed details of the internal motion and dissociation channels in photoexcited carbon dis...
Structural imaging of transient excited-state species is a key goal of molecular physics, promising ...
We have observed details of the internal motion and dissociation channels in photoexcited carbon dis...
In order to study the stability of the disulfide chemical bond in molecules subjected to a flux of h...
Ultrafast photodissociation and geminate recombination reactions of aromatic disulfides and thiols a...
Structural imaging of transient excited-state species is a key goal of molecular physics, promising ...