Add to ORKGA visible-light activatable photoacid has been studied, which upon irradiation, changes from a weak acid, with a pK(a) of 7.8, to a strong acid, which achieves nearly complete proton dissociation. This process is reversible and the half-life of the proton-dissociation state is similar to 70s. The long lifetime of the proton-dissociation state is due to a sequential intramolecular photochromic reaction. Using this photoacid, a pH change of 2.2 units has been achieved. In addition, we demonstrated that the photoinduced proton concentration can catalyze an esterification reaction, and greatly alter the volume of a pH-sensitive polymer. This work shows that acid-catalyzed and pH-sensitive processes can be photochemically controlled by using thi...
Small changes in the pH gradient play a critical role in numerous biological and chemical pathways. ...
Photoswitchable acid-base pairs, whose pK(a) values can be reversibly altered, are attractive molecu...
Metastable-state photoacids (mPAHs) are chemical species whose photo-activated state is long-lived e...
A visible-light activatable photoacid has been studied, which upon irradiation, changes from a weak ...
A new photoacid that reversibly changes from a weak to a strong acid under visible light was designe...
A new photoacid that reversibly changes from a weak to a strong acid under visible light was designe...
Most biochemical reactions depend on the pH value of the aqueous environment and some are strongly f...
Photoacids are the most convenient way to deliver protons on demand. So far, their photoacidity allo...
Transfer of a proton is undoubtedly one of the most elementary and yet one of the most significant r...
Reversible photochromic compounds have the ability to reversibly change its color when it absorbs ph...
Light-gated chemical reactions allow spatial and temporal control of chemical processes. Here, we su...
The application of merocyanine photoacids has previously been largely limited to neutral and acidic ...
Molecular photoswitches capable of generating precise pH changes will allow pH-dependent processes t...
A metastable-state photoacid that can reversibly release a proton in PBS buffer (pH = 7.4) under vis...
Although highly varied, all of the work in this thesis involves studying acid in photolithographical...
Small changes in the pH gradient play a critical role in numerous biological and chemical pathways. ...
Photoswitchable acid-base pairs, whose pK(a) values can be reversibly altered, are attractive molecu...
Metastable-state photoacids (mPAHs) are chemical species whose photo-activated state is long-lived e...
A visible-light activatable photoacid has been studied, which upon irradiation, changes from a weak ...
A new photoacid that reversibly changes from a weak to a strong acid under visible light was designe...
A new photoacid that reversibly changes from a weak to a strong acid under visible light was designe...
Most biochemical reactions depend on the pH value of the aqueous environment and some are strongly f...
Photoacids are the most convenient way to deliver protons on demand. So far, their photoacidity allo...
Transfer of a proton is undoubtedly one of the most elementary and yet one of the most significant r...
Reversible photochromic compounds have the ability to reversibly change its color when it absorbs ph...
Light-gated chemical reactions allow spatial and temporal control of chemical processes. Here, we su...
The application of merocyanine photoacids has previously been largely limited to neutral and acidic ...
Molecular photoswitches capable of generating precise pH changes will allow pH-dependent processes t...
A metastable-state photoacid that can reversibly release a proton in PBS buffer (pH = 7.4) under vis...
Although highly varied, all of the work in this thesis involves studying acid in photolithographical...
Small changes in the pH gradient play a critical role in numerous biological and chemical pathways. ...
Photoswitchable acid-base pairs, whose pK(a) values can be reversibly altered, are attractive molecu...
Metastable-state photoacids (mPAHs) are chemical species whose photo-activated state is long-lived e...