Add to ORKGThe design and synthesis of hollow tubular, functional nanostructures with controlled dimensions and defined surface chemistry remains a challenging and attractive target in both bio- and nanosciences. Integration of these molecular building blocks into larger, more complex structures usin
Recent advances in medicine and nanotechnology have inspired numerous researches in which nano-engin...
Polymersomes are robust, versatile nanostructures that can be tailored by varying the chemical struc...
The preparation and structural organization of a new bioinspired nanomaterial are investigated. A hy...
Organic nanotubes are desirable for their wide array of applications. We show here experimental effo...
Discrete nanoscale tubular architectures currently receive a great deal of attention because of thei...
We create long polymer nanotubes by directly pulling on the membrane of polymersomes using either op...
Nanotubular structures can form from a variety of different materials such as inorganic19–22, carbon...
An ability to design peptide-based nanotubes (PNTs) rationally with defined and mutable internal cha...
Self-assembled nanotubes exhibit impressive biological functions that have always inspired supramole...
Organic nanotubes, as assembled nanospaces, in which to carry out host–guest chemistry, reversible b...
The folding and assembly of sequence-defined polymers into precisely ordered nanostructures promises...
An ability to design peptide-based nanotubes (PNTs) rationally with defined and mutable internal cha...
Carbon nanotubes are used daily for many applications such as support for automotive parts, water fi...
Computationally designed peptides form desired antiparallel, tetrameric coiled-coil bundles that hie...
Recent advances in medicine and nanotechnology have inspired numerous researches in which nano-engin...
Recent advances in medicine and nanotechnology have inspired numerous researches in which nano-engin...
Polymersomes are robust, versatile nanostructures that can be tailored by varying the chemical struc...
The preparation and structural organization of a new bioinspired nanomaterial are investigated. A hy...
Organic nanotubes are desirable for their wide array of applications. We show here experimental effo...
Discrete nanoscale tubular architectures currently receive a great deal of attention because of thei...
We create long polymer nanotubes by directly pulling on the membrane of polymersomes using either op...
Nanotubular structures can form from a variety of different materials such as inorganic19–22, carbon...
An ability to design peptide-based nanotubes (PNTs) rationally with defined and mutable internal cha...
Self-assembled nanotubes exhibit impressive biological functions that have always inspired supramole...
Organic nanotubes, as assembled nanospaces, in which to carry out host–guest chemistry, reversible b...
The folding and assembly of sequence-defined polymers into precisely ordered nanostructures promises...
An ability to design peptide-based nanotubes (PNTs) rationally with defined and mutable internal cha...
Carbon nanotubes are used daily for many applications such as support for automotive parts, water fi...
Computationally designed peptides form desired antiparallel, tetrameric coiled-coil bundles that hie...
Recent advances in medicine and nanotechnology have inspired numerous researches in which nano-engin...
Recent advances in medicine and nanotechnology have inspired numerous researches in which nano-engin...
Polymersomes are robust, versatile nanostructures that can be tailored by varying the chemical struc...
The preparation and structural organization of a new bioinspired nanomaterial are investigated. A hy...