Add to ORKGSelf-healing materials are being developed to improve the lifetime of materials used in various applications including coatings, adhesives, structural components, and even microelectronics. The approach of using microencapsulation for self-healing has been particularly promising wit
We report the synthesis of controlled sized Urea-Formaldehyde (UF) microcapsules containing an epoxy...
Mechanical damage to bulk polymers typically begins as a microcrack, which can lead to eventual fail...
In this work, we report for the first time the manufacturing and characterization of smart multifunc...
Self-healing technology offers an autonomic route to repairing damage in advanced polymers to extend...
Can you imagine materials healing themselves when they are cracked? Guess what, it is possible! Self...
We highlight the development of nanocontainer-based active materials started in 2006 at the Max Plan...
The use of microcapsules containing healing agents, which can serve as source of self-healing for co...
Bone cements and dental resins are methacrylate-based materials that have been in use for many years...
Self-healing technology offers an autonomic route to repairing damage in advanced polymers to extend...
As the field of self-healing materials continues to grow, novel self-healing concepts and chemistrie...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
This paper describes the progress made toward synthesis and characterization of microencapsulated mo...
\u3cp\u3eBiomaterials are being applied in increasingly complex areas such as tissue engineering, bi...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
Biomaterials are being applied in increasingly complex areas such as tissue engineering, bioprinting...
We report the synthesis of controlled sized Urea-Formaldehyde (UF) microcapsules containing an epoxy...
Mechanical damage to bulk polymers typically begins as a microcrack, which can lead to eventual fail...
In this work, we report for the first time the manufacturing and characterization of smart multifunc...
Self-healing technology offers an autonomic route to repairing damage in advanced polymers to extend...
Can you imagine materials healing themselves when they are cracked? Guess what, it is possible! Self...
We highlight the development of nanocontainer-based active materials started in 2006 at the Max Plan...
The use of microcapsules containing healing agents, which can serve as source of self-healing for co...
Bone cements and dental resins are methacrylate-based materials that have been in use for many years...
Self-healing technology offers an autonomic route to repairing damage in advanced polymers to extend...
As the field of self-healing materials continues to grow, novel self-healing concepts and chemistrie...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
This paper describes the progress made toward synthesis and characterization of microencapsulated mo...
\u3cp\u3eBiomaterials are being applied in increasingly complex areas such as tissue engineering, bi...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
Biomaterials are being applied in increasingly complex areas such as tissue engineering, bioprinting...
We report the synthesis of controlled sized Urea-Formaldehyde (UF) microcapsules containing an epoxy...
Mechanical damage to bulk polymers typically begins as a microcrack, which can lead to eventual fail...
In this work, we report for the first time the manufacturing and characterization of smart multifunc...