Add to ORKGBreakthroughs in fundamental research now allow unprecedented control of materials at the molecular level, enabling a wide range of exquisite 3D structures to be assembled through a bottom-up approach. Simultaneously, developments in 3D fabrication technologies are heralding completely new and disruptive ways to control the 3D form of a rapidly growing range of materials, from hard metals, to transparent polymers, and soft biopolymers and gels, and at feature sizes from nano through micro and meso scale. Bringing this dynamically expanding knowledge base together thus will allow us, for the first time, to build devices and platforms whose form we can control over this tremendous diversity of scale. I believe this has profound implications...
The underlying physical properties of microfluidic tools have led to new biological insights through...
hn ity Microelectronic devices and MEMS are traditionally Review TRENDS in Biotechnology Vol.22 No.1...
Right now, there is real excitement across the broad area of materials science research, as the qual...
Breakthroughs in fundamental research now allow unprecedented control of materials at the molecular ...
Through developments in fabrication technologies in recent years, it is now possible to build and ch...
Through developments in 3D fabrication technologies in recent years, it is now possible to build and...
Imagine a world in which issues related to long-term (months to years) reliability of chem/bio-sensi...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Through developments in 3D fabrication technologies in recent years, it is now possible to build and...
Through developments in 3D fabrication technologies in recent years, we can now build and characteri...
Breakthroughs in fundamental research now allow unprecedented control of materials at the molecular ...
Imagine a world in which issues related to long-term (months to years) reliability of chem/bio-sensi...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
The underlying physical properties of microfluidic tools have led to new biological insights through...
hn ity Microelectronic devices and MEMS are traditionally Review TRENDS in Biotechnology Vol.22 No.1...
Right now, there is real excitement across the broad area of materials science research, as the qual...
Breakthroughs in fundamental research now allow unprecedented control of materials at the molecular ...
Through developments in fabrication technologies in recent years, it is now possible to build and ch...
Through developments in 3D fabrication technologies in recent years, it is now possible to build and...
Imagine a world in which issues related to long-term (months to years) reliability of chem/bio-sensi...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Through developments in 3D fabrication technologies in recent years, it is now possible to build and...
Through developments in 3D fabrication technologies in recent years, we can now build and characteri...
Breakthroughs in fundamental research now allow unprecedented control of materials at the molecular ...
Imagine a world in which issues related to long-term (months to years) reliability of chem/bio-sensi...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
The underlying physical properties of microfluidic tools have led to new biological insights through...
hn ity Microelectronic devices and MEMS are traditionally Review TRENDS in Biotechnology Vol.22 No.1...
Right now, there is real excitement across the broad area of materials science research, as the qual...