Add to ORKGActive materials that can adapt to dynamic environment have attracted growing attention in various fields of science and engineering because they hold great potential in development of autonomous and multifunctional devices and systems. Hydrogels, which swell and contract in response to a wide range of external stimuli, have been studied extensively as one of the most promising functional materials. Unique properties and advantages of these materials, however, have not been fully explored and successfully implemented at device level primarily because manufacturing and material process of this new class of materials still rely on conventional fabrication methods. This study presents development and application of a novel three-dimensional...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Engineering of bulk tissues has been limited by the lack of nutrient and waste exchange in these tis...
Microfabrication techniques have opened up new ways to study the dynamics of microsystems expanding ...
Active materials that can adapt to dynamic environment have attracted growing attention in various f...
Unique functions of living organisms in nature inspire a broad spectrum of engineering systems. Sinc...
Micro capillary networks widely exist in nature in forms of mass transport pathways, such as blood v...
The burgeoning field of additive manufacturing, or “3D printing”, centers on the idea of creating th...
Hydrogels, i.e., water-swollen polymer networks, have been studied and utilized for decades. These m...
Buckling is a classical topic in mechanics. While buckling has long been studied as one of the major...
Through developments in 3D fabrication technologies in recent years, we can now build and characteri...
The revolutionary advancement in semiconductor device manufacturing promoted micro/nano fabrication...
The field of stereolithography has developed rapidly over the last 20 years, and commercially avail...
The continuing interest in stimuli-responsive materials has yielded quite an expansive variety of sm...
This dissertation demonstrates design, characterization, and application of stimuli responsive self-...
This review discusses the currently available 3D printing approaches, design concepts, and material...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Engineering of bulk tissues has been limited by the lack of nutrient and waste exchange in these tis...
Microfabrication techniques have opened up new ways to study the dynamics of microsystems expanding ...
Active materials that can adapt to dynamic environment have attracted growing attention in various f...
Unique functions of living organisms in nature inspire a broad spectrum of engineering systems. Sinc...
Micro capillary networks widely exist in nature in forms of mass transport pathways, such as blood v...
The burgeoning field of additive manufacturing, or “3D printing”, centers on the idea of creating th...
Hydrogels, i.e., water-swollen polymer networks, have been studied and utilized for decades. These m...
Buckling is a classical topic in mechanics. While buckling has long been studied as one of the major...
Through developments in 3D fabrication technologies in recent years, we can now build and characteri...
The revolutionary advancement in semiconductor device manufacturing promoted micro/nano fabrication...
The field of stereolithography has developed rapidly over the last 20 years, and commercially avail...
The continuing interest in stimuli-responsive materials has yielded quite an expansive variety of sm...
This dissertation demonstrates design, characterization, and application of stimuli responsive self-...
This review discusses the currently available 3D printing approaches, design concepts, and material...
Our capacity to create and characterise structures with 3D spatial control ranging from molecular sc...
Engineering of bulk tissues has been limited by the lack of nutrient and waste exchange in these tis...
Microfabrication techniques have opened up new ways to study the dynamics of microsystems expanding ...