Add to ORKGWe probe the local and global structure of spin-coated colloidal crystals via laser diffraction measurements and scanning electron and atomic force microscopies, and find that they are unique three-dimensional orientationally correlated polycrystals, exhibiting short-range positional order but long-range radial orientational correlations, reminiscent of—but distinct from—two-dimensional colloidal hexatic phases. Thickness and symmetries are controllable by solvent choice and spin speed. While the polycrystallinity of these colloidal films limits their applicability to photonics, we demonstrate their feasibility as templates to make crack-free magnetic patterns
Colloidal suspensions, consisting of nano to micro-meter sized particles dispersed in a liquid, are ...
Two-dimensional colloidal crystals, as photonic band gap materials, have a wide variety of interest...
The synthesis and assembly of anisometric colloids (500 nm to ~2 um) have attracted recent interest ...
We probe the local and global structure of spin-coated colloidal crystals via laser diffraction meas...
Polycrystals of thin colloidal deposits, with thickness controlled by spin-coating speed, exhibit ax...
Spin coating is an out-of-equilibrium technique for producing polymer films and colloidal crystals q...
Fabricating large single crystals with colloidal spheres as building blocks is challenging and of co...
Spin coating is an out-of-equilibrium technique for producing polymer films and colloidal crystals q...
Although there are numerous self-assembly techniques to prepare colloidal crystals, there is great v...
Spin coating is an out-of-equilibrium technique for producing polymer films and colloidal crystals q...
Colloidal particles have the right size to form ordered structures with periodicities comparable to ...
Two-dimensional colloidal suspensions exposed to periodic external fields exhibit a variety of molec...
Colloidal suspensions, consisting of nano to micro-meter sized particles dispersed in a liquid, are ...
This thesis begins by studying the thickness of evaporative spin coated colloidal crystals and demo...
Colloidal suspensions, consisting of nano to micro-meter sized particles dispersed in a liquid, are ...
Two-dimensional colloidal crystals, as photonic band gap materials, have a wide variety of interest...
The synthesis and assembly of anisometric colloids (500 nm to ~2 um) have attracted recent interest ...
We probe the local and global structure of spin-coated colloidal crystals via laser diffraction meas...
Polycrystals of thin colloidal deposits, with thickness controlled by spin-coating speed, exhibit ax...
Spin coating is an out-of-equilibrium technique for producing polymer films and colloidal crystals q...
Fabricating large single crystals with colloidal spheres as building blocks is challenging and of co...
Spin coating is an out-of-equilibrium technique for producing polymer films and colloidal crystals q...
Although there are numerous self-assembly techniques to prepare colloidal crystals, there is great v...
Spin coating is an out-of-equilibrium technique for producing polymer films and colloidal crystals q...
Colloidal particles have the right size to form ordered structures with periodicities comparable to ...
Two-dimensional colloidal suspensions exposed to periodic external fields exhibit a variety of molec...
Colloidal suspensions, consisting of nano to micro-meter sized particles dispersed in a liquid, are ...
This thesis begins by studying the thickness of evaporative spin coated colloidal crystals and demo...
Colloidal suspensions, consisting of nano to micro-meter sized particles dispersed in a liquid, are ...
Two-dimensional colloidal crystals, as photonic band gap materials, have a wide variety of interest...
The synthesis and assembly of anisometric colloids (500 nm to ~2 um) have attracted recent interest ...