Besides the noble physical appearance of gold and silver, their novel chemical properties
attracted the modern technology for various industrial, chemical and biological uses …

During the last decade, there has been a tremendous interest for develo** non‐natural
biocompatible transformations in biologically relevant media. Among the different …

The viability of building artificial metabolic pathways within a cell will depend on our ability to
design biocompatible and orthogonal catalysts capable of achieving non-natural …

The ability to perform'new-to-nature'chemical reactions within living cells and organisms is
transforming the way in which scientists interrogate and/or manipulate biological processes …

Metal-based uncaging of biomolecules has become an emerging approach for in vivo
applications, which is largely due to the advantageous bioorthogonality of abiotic transition …

A rhodamine/BODIPY-based fluorescent probe for the differential detection of Hg( ii ) and Au( iii ) -
Chemical Communications (RSC Publishing) DOI:10.1039/C3CC48436J Royal Society of …

To achieve real-time monitoring of Au 3+, a corn bract cellulose-based fluorescent probe
MAC-1 for was synthesized. MAC-1 showed good fluorescence properties in DMF-H 2 O (1 …

In this study, a novel rhodamine-based optically and electrochemically active chemosensor,
integrated with a p-DMAC moiety, demonstrated extremely selective identification of Au3+ …

The metal-catalyzed reactions have given various chemical modifications that could not be
achieved through basic organic chemistry reactions. In the past decade, many metal …

One of the challenges of modern inorganic chemistry is translating the potential of metal
catalysts to living systems to achieve controlled non-natural transformations. This field poses …