Container Closure Integrity Testing (CCIT) helps ensure the safety of pharmaceutical packaging. We utilize laser drilling and micromachining systems to provide precision-calibrated leaks for CCIT in various materials.
Shadow masks guide light with high precision to an exact location through a stencil. We can fabricate holes as small as 1µm for mask features with maximum resolution.
Microfluidics leverage semiconductor manufacturing processes to perform complex molecular biology tasks more quickly and cheaply than with traditional methods.
Plasma treatment, UV/Ozone treatment, chemical treatment, and surfactant treatment can be used to change the hydrophilicity of COC and improve its microfluidic performance.
Organ-on-a-chip platforms are microfluidic devices that allow scientists to study different organ-specific responses to drug treatments. As such, they offer a viable alternative to animal testing and could help speed up the drug approval process. Goodfellow is able to help create miniaturization solutions with UV laser and micro-CNC micromachining. Our prototype to high volume production capability also creates prototypes that are Designed for Manufacturing, ensuring fast time to market and immediate scalability.
Silicon wafers serve as a fundamental component in various technologies and, following our acquisition of Potomac Photonics, we're leading the charge in their manufacturing and optimization. This industry front-runner has made significant strides in refining techniques for precise feature creation and hole drilling in silicon wafers, which includes wafer dicing and detailed patterning for diverse applications.
Kapton polyimide is essential in many industries. Goodfellow division Potomac Photonics excels in laser micro machining Kapton, providing rapid contract manufacturing & full-scale production.
Rapid prototyping of new products is only successful if the rapid part of the term is met. With the internet available on multiple fast platforms, split-second delivery systems, and demands for instant gratification, companies in biotech, microfluidics, micro-electronics and consumer products can’t wait for a long prototyping process. They need prototypes, rapidly!
Have you ever wondered how science affects the clothes you wear? In this episode, Mark and Aphrodite talk with Victoria Mataczynski, co-founder of Nanoloom, discuss how they are using graphene to develop an innovative yarn for the production of apparel. Together, the three discuss the benefits of using this groundbreaking science to produce the next generation of clothing.
