Albert Folch Folch


Albert Folch Folch is a Spanish scientist, writer, and artist. He is currently a professor in the Department of Bioengineering at the University of Washington who is known for his research into Microfluidics and BioMEMS as well as his works of scientific art.

Background

Folch received his B.Sc. in Physics from the University of Barcelona in 1989. In 1994, he received his Ph.D. in Surface Science and Nanotechnology from the U.B.'s Physics Dept. under Dr. Javier Tejada's supervision. During his Ph.D. he was also a visiting scientist at the Lawrence Berkeley Laboratory working on Atomic Force Microscopy under Dr. Miquel Salmeron. From 1994 to 1996, he was a postdoc at M.I.T. developing microdevices under the advice of Martin A. Schmidt and Mark S. Wrighton. In 1997, he joined the laboratory of Dr. Mehmet Toner as a postdoc at Harvard University's Center for Engineering in Medicine to work on BioMEMS and Tissue Engineering. In 2000 he joined the University of Washington's Dept. of Bioengineering, where he is an associate professor. In 2001 he received a National Science Foundation CAREER Award, and in 2014 he was elected to the American Institute for Medical and Biological Engineering College of Fellows Class of 2015. He also serves on the advisory board of the BioMEMS journal Lab on a Chip.

Scientific research and teaching

The Folch Lab works on the interface between microfluidics, cancer, and neurobiology. The lab's long-term mission is to make microfluidic devices as easy to use as smartphones and make them easily available to clinicians in order to enable novel cancer diagnostics and therapies. The lab uses 3D printing and molding approaches to fabricate microfluidic devices that mimic the real microenvironment of nerve and cancer cells when they are cultured outside of the organism. The lab is well known for its microfluidic designs, such as the microfluidic photomasks, a combinatorial micromixer, and a microwell array for optically recording from large numbers of olfactory sensory neurons. However, the long-term goals of the Folch Lab are to produce 3D-printed devices that facilitate access to cancer therapies, in particular personalized chemotherapy and immunotherapy.
As part of the undergraduate and graduate curriculum of the University of Washington's Bioengineering Department, Folch teaches a course on BioMEMS and a course on Cancer Biosensors.

Artistic activity

The Folch Lab produces microscopy images of microchannels and cells that it then uses to run an artistic outreach program called "BAIT", short for "Bringing Art Into Technology". The idea is that the micrographs act as baits to entice people to read the accompanying texts displayed next to the images. Hence, one comes to the exhibit for an artistic experience and leaves having actually learned some science. While a few of the micrographs are exhibited as obtained by the students without much modification, most pieces are collages, mosaics, and/or mixed-media montages made by Folch. However, Folch considers each piece a "collaboration" between him and his students.
The Folch Lab art collection now consists of more than 60 printed or framed pieces and is already in its sixth major exhibit. The largest exhibit was at the University of Washington's Allen Library in 2010. In 2013, BAIT was exhibited in the halls of the 2013 Biomedical Engineering Society meeting in the Seattle Convention Center. In 2014, six pieces from BAIT were exhibited during the Mahato Memorial at Duke University, the first time that BAIT was invited outside of Seattle. BAIT has been featured twice on TV.
Folch's artistic activity extends into graphic design. He has designed the logo for the University of Washington's Bioengineering Department and Folch Lab's art has been used in a number of brochures of scientific venues. Since 2010, Folch has also been acting as Art Editor for the journal Lab on a Chip, running the "Art on a Chip" website.

Literary activity

Folch has written two general science books in Catalan, a textbook in English, and a book about soccer in English.
Caught on the Internet teaches what the Internet is about to computer-illiterate audiences, starting from bits and bytes and ending with issues such as social fairness and hackers. This book is in its second edition and an extract of it is used in a textbook for Catalan middle schoolers.
The Science in Soccer uses soccer examples to convey science. The book is organized in chapters related to various soccer subjects. Inside each chapter we find the answers to questions such as what it would be like to play soccer in each of the planets of the Solar System, why the ball is more than one meter ahead of where we think it really is in a 100 km/h kick, or why soccer balls are made of 12 pentagons and 20 hexagons, etc. This book is also available in e-reader format.
Introduction to BioMEMS covers the whole breadth of BioMEMS, including classical microfabrication, microfluidics, tissue engineering, cell-based and noncell-based devices, and implantable systems. This textbook is now being adopted worldwide.
For the Love of the Ball tells the history and methods of FC Barcelona's youth academy. Folch also keeps a related blog site, titled La Ciencia del Fútbol, where he talks about FC Barcelona's present state of affairs with a scientific perspective.
Folch also created a large Catalan Poetry Selection. This webpage, originally hosted by M.I.T. and manually typed in 1995 just one year after the World Wide Web started, was, at the time, the first online literary resource of its kind and size in any language. Still widely visited, the selection features 800 poems and 176 Catalan poets spanning ten centuries, including 24 unpublished poets.

Media coverage

The Folch Lab has been featured in The New York Times, Science News, Physics World, Materials Today, Photonics Spectra, BioPhotonics International, Proto, The Washington Post, UWTV, and NTN24.

Awards and honors