Angstrom Partners Did Incredible Things In 2017

2017 was an fantastic year for us at Angstrom Engineering. We delivered a record number of thin film deposition systems to our partners, and are becoming increasingly excited about the technological progress their creative innovation will allow. With so many projects that have far-reaching implications to choose from, we have put together a short list of just some of the amazing accomplishments that our partners have had, and worked toward this year:

Dr. Zhenan Bao continued to impress with her accomplishments in 2017. This article describes her work towards bringing the sense of touch back to those who have lost a limb.

Dr. Trisha Andrew has a passion for making the clothes we wear multi-functional, from electrically warmed winter gloves to textiles that convert body movement into usable energy.

We have many partners working on fundamental science as well. Dr. Malte Gather at the University of St. Andrews helped use light-emitting and stable transistors to achieve strong light-matter coupling. Several people at Angstrom even know what that means!

Dr. Richard Lunt and his colleagues are working to revolutionize how we harvest energy from the sun, and build sustainable cities. Transparent solar is coming, and it could change how we look out on the world.

This article features our partners at the Columbia Nano Initiative, where a multi-user cleanroom facility houses the ‘Angstrom’, a system apparently accompanied by ‘screams of joy’ from its users.

Biomimicry comes into play for a good number of our partners. In this case, Dr. Max Shtein had the electric eel as a source of inspiration for safe, implantable human-electronics interfaces.

Dr. Mirica and her team from Dartmouth created fabric capable of detecting toxic gases in the surrounding atmosphere, and actively warn its wearer. The potential for military and emergency service personnel is obvious, and is just the beginning of what the tech framework can do.

John Hart from MIT helped create a 3D printer that is 10X faster than anything on the market. While not specifically related to his work requiring thin film deposition, this is still very cool, and a good example of the brilliant people we get to work with on a regular basis.

Perovskite is everywhere. Many are betting on it to usher in a solar revolution, and others are tapping it for other uses. So many of our partners are studying and publishing perovskite’s powers. Click here to see what several of them are up to with perovskite.

Having arrived in Brazil, our partner’s logistics team takes the lead, taking it out of the wooden box so that it can fit through the door of the facility. The journey resulted in the standard small bumps and dents that are categorized and logged so that our installation team can quickly and effectively get the system up and running, which they do.

Finally, all that’s left to do is to fabricate some superconducting circuits, and further the field of quantum computing. Our partners at Centro Brasileiro de Pesquisas Fisicas (CBPF) expressed their excitement at having gained the capabilities  of partnering with us in this translated LinkedIn post:

 

It is with great enthusiasm that we announce the arrival of the newest equipment, from Angstrom Engineering, to the Quantum Technologies Laboratory of CBPF. This laboratory is complementary to Labnano, one of the strategic laboratories of SisNANO – the National System of Nanotechnology Laboratories of the Ministry of Science, Technology and Innovation (MCTI).

SisNANO is comprised of a set of laboratories focused on research, development and innovation (RD&I) in nanosciences and nanotechnologies, with the essential characteristic of being multi-user and open access to public and private institutions.

Acquired with funding from Finep and support from MCTI, the new equipment will allow CBPF to advance in the manufacture of superconducting quantum nanodevices, such as Josephson junctions and SQUIDS. These devices are essential for the development of future quantum chips, which promise to transform areas such as computing, secure communication and metrology.

The impact of this advance is also connected to related projects funded by FAPERJ, CNPq and Petrobras, consolidating a robust research ecosystem in Brazil.

This achievement reinforces the commitment of CBPF and MCTI to leading the frontier of scientific research, contributing to enabling the country to compete in a global scenario marked by disruptive and strategic advances.

We would like to thank the institutions involved and the professionals who made this achievement possible. We invite the scientific, technological and industrial community to closely monitor the transformative results that this new infrastructure will provide.

Resources

News & Events – Keep up with the innovative work in the industry or what Angstrom Engineering® is up to.
Education – Explore our growing educational content. Check back often!