Add to ORKGTunable solid-state fluorescent materials are ideal for applications in security printing technologies. A document possesses a high level of security if its encrypted information can be authenticated without being decoded, while also being resistant to counterfeiting. Herein, we describe a heterorotaxane with tunable solid-state fluorescent emissions enabled through reversible manipulation of its aggregation by supramolecular encapsulation. The dynamic nature of this fluorescent material is based on a complex set of equilibria, whose fluorescence output depends non-linearly on the chemical inputs and the composition of the paper. By applying this system in fluorescent security inks, the information encoded in polychromic images can be prote...
International audienceDespite its millennial age, cellulose paper remains the preferred material for...
In the present invention, we propose a method of creating fluorescent color images visible under UV ...
This contribution unveils and defines the concept of covalent printing onto cellulose paper through ...
Tunable solid-state fluorescent materials are ideal for applications in security printing technologi...
A drive for anti-counterfeiting technology has attracted considerable interests in developing nanoma...
The development of luminescent materials for anticounterfeiting and encryption is of great importanc...
Fluorescent patterns showing the unique color change in response to external stimuli are of consider...
Information encryption is essential for information security. However, constructing a collaborative ...
Solid-state fluorescent carbon quantum dots (QDs) can be used for the encryption of security informa...
Fluorescence signals have been widely used in information encryption for a few decades, but still su...
Abstract Optical encryption technologies based on room-temperature light-emitting materials are of c...
Fluorescent polymeric hydrogels especially multicolor fluorescent polymeric hydrogels (MFPHs) have i...
Many natural organisms have evolved to display responsive biofluorescence color changes that facilit...
Herein, we report a tri-component photochromic molecular cocktail that can be used to encrypt and de...
A strategy is demonstrated to protect valuable items, such as currency, pharmaceuticals, important d...
International audienceDespite its millennial age, cellulose paper remains the preferred material for...
In the present invention, we propose a method of creating fluorescent color images visible under UV ...
This contribution unveils and defines the concept of covalent printing onto cellulose paper through ...
Tunable solid-state fluorescent materials are ideal for applications in security printing technologi...
A drive for anti-counterfeiting technology has attracted considerable interests in developing nanoma...
The development of luminescent materials for anticounterfeiting and encryption is of great importanc...
Fluorescent patterns showing the unique color change in response to external stimuli are of consider...
Information encryption is essential for information security. However, constructing a collaborative ...
Solid-state fluorescent carbon quantum dots (QDs) can be used for the encryption of security informa...
Fluorescence signals have been widely used in information encryption for a few decades, but still su...
Abstract Optical encryption technologies based on room-temperature light-emitting materials are of c...
Fluorescent polymeric hydrogels especially multicolor fluorescent polymeric hydrogels (MFPHs) have i...
Many natural organisms have evolved to display responsive biofluorescence color changes that facilit...
Herein, we report a tri-component photochromic molecular cocktail that can be used to encrypt and de...
A strategy is demonstrated to protect valuable items, such as currency, pharmaceuticals, important d...
International audienceDespite its millennial age, cellulose paper remains the preferred material for...
In the present invention, we propose a method of creating fluorescent color images visible under UV ...
This contribution unveils and defines the concept of covalent printing onto cellulose paper through ...