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Microfabrication Engineer
By combining unique engineering solutions with 3D printing and cell biology the group of Prof. Jennifer Lewis has become a world leader in bioengineering at the Wyss Institute and Harvard School of Engineering and Applied Sciences. A new patented technology developed within the group, acoustophoretic printing, allows the processing whole new space of materials, enabling the advanced manufacturing a whole new categories of products.
Prof Lewis' group now solicits applications for a visiting master student to aid the develop of a new the proof of concept.
Keywords: 3D printing, functional printing, additive manufacturing, droplet on demand, inkjet, microaparticles, microengineering, mechanical engineering, material science, chemical engineering, electrical engineering, applied physics, microfabrication, chemical-mechanical polishing, thin film deposition, deep reactive ion etching, wet processing, lithography, silicon wafer thinning, wafer bonding, piezo electric materials, electronic systems, microfluidics, ultrasonic sensors, transducers
By combining unique engineering solutions with 3D printing and cell biology the group of Prof. Jennifer Lewis has become a world leader in bioengineering at the Wyss Institute and Harvard School of Engineering and Applied Sciences. A new patented technology developed within the group, acoustophoretic printing, allows the processing whole new space of materials, enabling the advanced manufacturing a whole new categories of products.
Prof Lewis' group now solicits applications for a visiting master student to aid the develop of a new the proof of concept.
By combining unique engineering solutions with 3D printing and cell biology the group of Prof. Jennifer Lewis has become a world leader in bioengineering at the Wyss Institute and Harvard School of Engineering and Applied Sciences. A new patented technology developed within the group, acoustophoretic printing, allows the processing whole new space of materials, enabling the advanced manufacturing a whole new categories of products. Prof Lewis' group now solicits applications for a visiting master student to aid the develop of a new the proof of concept.
We are seeking a creative, motivated student with some experience in the field of microfabrication, and MEMS. The role will involve development, implementation and testing of microchips to advance the acoustophoretic printing platform. The successful candidate will support and work closely with other experts within the Lewis Group to rapidly advance the scientific program. The project is highly interdisciplinary, on the intersection of engineering, pharmaceutical sciences, biochemistry and chemistry.
RESPONSIBILITIES
• Design, development, and successful implementation of novel microfluidic chip.
• Design, integrate, and upgrade lab electronics to a user-friendly product.
• Work closely with an entrepreneurial, highly-collaborative, interdisciplinary team and actively contribute to creating, shaping and executing the scientific vision of the future company.
• Jump in and help with whatever is needed to get the job done: we are in this together!
We are seeking a creative, motivated student with some experience in the field of microfabrication, and MEMS. The role will involve development, implementation and testing of microchips to advance the acoustophoretic printing platform. The successful candidate will support and work closely with other experts within the Lewis Group to rapidly advance the scientific program. The project is highly interdisciplinary, on the intersection of engineering, pharmaceutical sciences, biochemistry and chemistry. RESPONSIBILITIES • Design, development, and successful implementation of novel microfluidic chip. • Design, integrate, and upgrade lab electronics to a user-friendly product. • Work closely with an entrepreneurial, highly-collaborative, interdisciplinary team and actively contribute to creating, shaping and executing the scientific vision of the future company. • Jump in and help with whatever is needed to get the job done: we are in this together!
A complete application will include:
a) A cover letter.
b) CV.
c) At least two reference contacts.
Applicants should email items (a)-(c) as a single PDF file to Dr. Foresti (dforesti@seas.harvard.edu) using "Microfabrication Scientist” as the title of the email.
A complete application will include: a) A cover letter. b) CV. c) At least two reference contacts. Applicants should email items (a)-(c) as a single PDF file to Dr. Foresti (dforesti@seas.harvard.edu) using "Microfabrication Scientist” as the title of the email.