Due to my experience in the Hawker group, I want to continue doing additive manufacturing. I am interested in working in the additive manufacturing unit at Lawrence Livermore. I am interested in continuing working with photopolmerization 3D printers but also want to expand my horizon by exploring composites and metals. I spoke with Dr. Monica Moya at a conference about 3D printed cells. It would be intersting to integrate biopolymers to allow tissue scaffolding to these 3D printed cells. I also read that lawrence livermore is the first lab that successfully printed carbon nanofiber using direct ink writing. I know my previous experience with a novel 3D printer will be helpful for building new revolutionary additive manufacturing methods.
Due to my background in organic synthesis, I am interested in working in the Molecular Foundry at Lawrence Berkeley. I would like to work in a project in nanoporous polymer for gas and liquid seperation. I would be more interested in doing the material science aspect of these membranes like various mechanical testing and characterization. My research experience in the Dr. Garcia-Garibay lab also expose me to a lot of various solid state organic chemistry. I believe my background will also be useful in a metal organic framework project and multicomponent hierarchial materials. I am also fascinated in nanofabrication. I am interested in working at Lawrence Berkeley microsystem labatory.
For my book talk assignment I read a realistic fiction novel named “Monster” by Walter Dean Myers.
In the autobiography Black Boy by Richard Wright, Wright’s defining aspect is his hunger for equality between whites and blacks in the Jim Crow South. Wright recounts his life from a young boy in the repugnant south to an adult in the north. In the book, Wright’s interpretation of hunger goes beyond the literal denotation. Thus, Wright possesses an insatiable hunger for knowledge, acceptance, and understanding. Wright’s encounters with racial discrimination exhibit the depths of misunderstanding fostered by an imbalance of power.
The idea behind this scene in the movie is not too far-fetched and it features some technologies that are very similar to what is being developed today. The first thing the movie gets right about bio-printing is the fact that each body system is printed using a different tool. Today there are three main techniques used in bio-printing (ink-jet printing, laser printing, and extrusive printing) and each one has different strengths and weaknesses. Ink-jet based bio-printing uses “a “bio-ink,” made of cells and bio-materials, to print living cells in the form of droplets (each contains 10,000–30,000 cells) by using a non-contact
Richard Wright has been referred to me for therapy regarding his theft from the local theater, and I believe that he committed this crime because he believes that because of his station in society he would never be able to support himself and his family through honest means. Despite the fact that he does hold some remorse for his actions, it would appear that whatever remorse he holds is tempered by his justifications for stealing. A thorough analysis of his reasoning has been conducted and with testimony from the patient to serve as my proof, I will begin treatment to show him the error of his ways.
... The advanced technology of surface modification in the biomedical sector have the ability to offer not an improvement in the tribological properties only but also to improve the clinical requirements prior and post implantation. Such properties includes cell growth and antibacterial effect.
A Reflection on Mark My Words: Letters of a Businessman to his Son by G Kingsley Ward
It is predicted that humans will come a long way throughout the 2st century, hopefully eliminating the possibility for amputees to have a disadvantaged life. 3D printing is set out to be one of the most revolutionary technologies of this decade and will continue to impress on the biological front. Thanks to the use of 3D printing, new limbs can be printed with exceptionally accuracy for a infinitesimal cost. Even in the year 2017, new limbs can be printed for less than $100 USD per person making it a cheap alternative to more “advanced” prosthetic
Solid Freeform Fabrication(SFF) has been possibly the most large scale fabrication technique among the different types of design and fabrication methods (Bose, et al., 2012). The main feature of SFF has three dimensional parts which are printed layer-by-layer depending on computer aided design (ask plagiarism). The fabrication of SFF on polymer, ceramic, metal and composite scaffolds has been widely accepted in bone tissue engineering applications (Bose, et al.,
The field of bioprinting, using 3D printing technology for producing live cells with extreme accuracy, could be the answer to many of the problems we as humans face in the medical field. It could be the end to organ waiting lists and an alternative for organ transplants. In 3D printing technology lies the potential to replace the testing of new drugs on animals. However, the idea of applying 3 dimensional printing to the health industry is still quite new and yet to have a major impact. Manufacturing working 3D organs remains an enormous challenge, but in theory could solve major issues present today.
Bioprinting is exactly what it sounds like: printing cells. Scientists have discovered a way to print cells, join them together, and eventually create substances such as tissues, organs, and teeth. They do this through a very unique three dimensional printer that has a cartridge that holds cells. There are two ways to bioprint cells. One way is drop based bioprinting, which is a method that consists of droplets of cells being put together and combined at the end. This method is quick, but tends to be too harsh for substances like organs. However, with extrusion bioprinting, scientists
...ooner than we think. Within the near future we will have brand new 3D printing technology that will benefit the entire world.
Tissue engineering is the study of the growth of connective tissues or cells to produce a fully functioning organs in the patient. Instead of implantation, tissue engineers make an attempt to create organs that will suit the patient without rejection from the immune system. Tissues are extracted from...
The technology and complex foundation of additive manufacturing (AM) or more commonly known as 3D printing is still being widely explored through trial and error processes to improve this innovative field. Consumer goods such as clothes, food, decoration, household objects and tools, fragrance and so much more has good prospect within the spectrum of AM applications. The 3D printing machine enable industrial designers, mechanical engineer, packaging designers, graphic artists, marketing staff, fashion designers, interior designers and the like to create prototypes efficiently. How is timing more efficient with AM? Time to market shrink significantly as the 3D printer help designers and engineer bring their creation to life swiftly. All matters of aesthetics and functionality can be seen and reformed for optimal quality with AM.
Materials Science and Engineering plays a key role in establishing and enhancing the innovations of sustainable development and serves as one of its most important foundations. The need to be creative and to think beyond the existing boundaries keeps material science engineering at the cutting edge of technology. I have been fascinated by the contents of material science and the applications that could be developed through its technologies such as carbon nanotubes. Other innovations include biomaterial in implants and even alternative eco-friendly products such as biopolymer and biodegradable materials. I want to be a part of such exciting endeavors. To achieve this goal I aspire to pursue my graduate studies in Material Science and Engineering so that I can contribute to the research which will be at the forefront of life changing science.
I have always liked playing with Legos and will always like Legos, it is a way that I can build all the inventions and modifications I think up in my head and make them a working prototype. When I went to Maker Faire KC in 2011 and saw all the amazing inventions, I was in heaven, but the device l was most interested in and decided I must have was a 3D printer. 3D printing is like Legos, you can build anything you think of in plastic, but unlike Legos, everything is strong and just the shape you want it to be. When I first saw 3D printers at Maker Faire they were still using hot glue guns, (a primitive method in 3D printing), so everything came out looking like it was a large blob made of cobwebs...