This short review highlights recent results on the use of nanoclusters of gold protected by a monolayer of functional ligands in both molecular recognition and catalysis. Particular emphasis is given to the multivalent properties of these systems and, in the case of catalysis, to the cooperativity between functional groups present in the ligands of the monolayer. The outstanding catalytic efficiency of some of the functional nanoparticles synthesized led us to call them nanozymes by analogy with the activity of catalytic polymers (synzymes)
This review gives a brief summary of the field of gold nanoparticle interactions with biological mol...
This review describes the attractiveness of catalytic self-assembled monolayers (SAMs) on gold nanop...
This review describes the attractiveness of catalytic self-assembled monolayers (SAMs) on gold nanop...
This short review highlights recent results on the use of nanoclusters of gold protected by a monola...
This short review highlights recent results on the use of nanoclusters of gold protected by a monola...
Gold nanoparticles passivated by a monolayer of functional thiolates represent a new promising tool ...
Gold nanoparticles passivated by a monolayer of functional thiolates represent a new promising tool ...
Gold nanoparticles passivated by a monolayer of functional thiolates represent a new promising tool ...
Clusters of gold atoms in the range 1-100 nm of diameter are unstable and tend to aggregate to form ...
This chapter shows how monolayer-protected gold nanoparticles (AuNPs), which are nanometer-sized gol...
This chapter shows how monolayer-protected gold nanoparticles (AuNPs), which are nanometer-sized gol...
Particularly effective: The self-assembly of triazacyclonane-functionalized thiols on the surface of...
The self-assembly of triazacyclonane-functionalized thiols on the surface of nanosize gold particles...
The inclusion of transition metal catalysts into nanoparticle scaffolds permits the creation of cata...
The inclusion of transition metal catalysts into nanoparticle scaffolds permits the creation of cata...
This review gives a brief summary of the field of gold nanoparticle interactions with biological mol...
This review describes the attractiveness of catalytic self-assembled monolayers (SAMs) on gold nanop...
This review describes the attractiveness of catalytic self-assembled monolayers (SAMs) on gold nanop...
This short review highlights recent results on the use of nanoclusters of gold protected by a monola...
This short review highlights recent results on the use of nanoclusters of gold protected by a monola...
Gold nanoparticles passivated by a monolayer of functional thiolates represent a new promising tool ...
Gold nanoparticles passivated by a monolayer of functional thiolates represent a new promising tool ...
Gold nanoparticles passivated by a monolayer of functional thiolates represent a new promising tool ...
Clusters of gold atoms in the range 1-100 nm of diameter are unstable and tend to aggregate to form ...
This chapter shows how monolayer-protected gold nanoparticles (AuNPs), which are nanometer-sized gol...
This chapter shows how monolayer-protected gold nanoparticles (AuNPs), which are nanometer-sized gol...
Particularly effective: The self-assembly of triazacyclonane-functionalized thiols on the surface of...
The self-assembly of triazacyclonane-functionalized thiols on the surface of nanosize gold particles...
The inclusion of transition metal catalysts into nanoparticle scaffolds permits the creation of cata...
The inclusion of transition metal catalysts into nanoparticle scaffolds permits the creation of cata...
This review gives a brief summary of the field of gold nanoparticle interactions with biological mol...
This review describes the attractiveness of catalytic self-assembled monolayers (SAMs) on gold nanop...
This review describes the attractiveness of catalytic self-assembled monolayers (SAMs) on gold nanop...