Add to ORKGColloids coated with single-stranded DNA (ssDNA) can bind selectively to other colloids coated with complementary ssDNA. The fact that DNA-coated colloids (DNACCs) can bind to specific partners opens the prospect of making colloidal "molecules." However, in order to design DNACC-based molecules, we must be able to control the valency of the colloids, i.e., the number of partners to which a given DNACC can bind. One obvious, but not very simple approach is to decorate the colloidal surface with patches of single-stranded DNA that selectively bind those on other colloids. Here we propose a design principle that exploits many-body effects to control the valency of otherwise isotropic colloids. Using a combination of theory and simulation, we s...
This thesis presents work on the DNA directed assembly of colloids at liquid and solid interfaces un...
The specificity and reversibility of the hydrogen-bonding between two complementary strands in DNA m...
The ability to design and assemble three-dimensional structures from colloidal particles is limited ...
Colloids coated with single-stranded DNA (ssDNA) can bind selectively to other colloids coated with ...
Colloids coated with single-stranded DNA (ssDNA) can bind selectively to other colloids coated with ...
Developing construction methods of materials tailored for given applications with absolute control o...
This thesis revolves around exploiting the specificity of DNA interactions to guide the assembly of ...
This thesis revolves around exploiting the specificity of DNA interactions to guide the assembly of ...
By exploiting the exquisite selectivity of DNA hybridization, DNA-coated colloids (DNACCs) can be ma...
By exploiting the exquisite selectivity of DNA hybridization, DNA-coated colloids (DNACCs) can be ma...
By exploiting the exquisite selectivity of DNA hybridization, DNA-coated colloids (DNACCs) can be ma...
Functionalizing colloids with reactive DNA linkers is a versatile way of programming self-assembly. ...
DNA-mediated multivalent interactions between colloidal particles have been extensively applied for ...
The possibility of prescribing local interactions between nano- and microscopic components that dire...
Introducing the concept of programmability paves the way for designing complex and intelligent mater...
This thesis presents work on the DNA directed assembly of colloids at liquid and solid interfaces un...
The specificity and reversibility of the hydrogen-bonding between two complementary strands in DNA m...
The ability to design and assemble three-dimensional structures from colloidal particles is limited ...
Colloids coated with single-stranded DNA (ssDNA) can bind selectively to other colloids coated with ...
Colloids coated with single-stranded DNA (ssDNA) can bind selectively to other colloids coated with ...
Developing construction methods of materials tailored for given applications with absolute control o...
This thesis revolves around exploiting the specificity of DNA interactions to guide the assembly of ...
This thesis revolves around exploiting the specificity of DNA interactions to guide the assembly of ...
By exploiting the exquisite selectivity of DNA hybridization, DNA-coated colloids (DNACCs) can be ma...
By exploiting the exquisite selectivity of DNA hybridization, DNA-coated colloids (DNACCs) can be ma...
By exploiting the exquisite selectivity of DNA hybridization, DNA-coated colloids (DNACCs) can be ma...
Functionalizing colloids with reactive DNA linkers is a versatile way of programming self-assembly. ...
DNA-mediated multivalent interactions between colloidal particles have been extensively applied for ...
The possibility of prescribing local interactions between nano- and microscopic components that dire...
Introducing the concept of programmability paves the way for designing complex and intelligent mater...
This thesis presents work on the DNA directed assembly of colloids at liquid and solid interfaces un...
The specificity and reversibility of the hydrogen-bonding between two complementary strands in DNA m...
The ability to design and assemble three-dimensional structures from colloidal particles is limited ...