Michael Strano

Strano was born around 1976.{{cite journal |title=Innovators under 35: 2004 |journal=MIT Technology Review |date=2004 |url=http://www2.technologyreview.com/tr35/profile.aspx?TRID=141}}

He graduated with a BS degree (summa cum laude) in chemical engineering from the Polytechnic University, Brooklyn in 1997. He gained his PhD (summa cum laude) in chemical engineering from the University of Delaware in 2002, under the direction of Hank Foley.{{Cite web | url=https://che.udel.edu/wp-content/uploads/2019/03/2008ChEgNewsletter.pdf&ved=2ahUKEwjGtJHSvN6CAxWBl4kEHVGTCFkQFnoECCcQAQ&usg=AOvVaw0OU8FTXiB1ewLSlJQDzLMF | title=Unknown}}{{Dead link | date=December 2024 | fix-attempted=yes}}{{cite web|url=http://lifeboat.com/ex/bios.michael.s.strano|title=Lifeboat Foundation Bios: Professor Michael S. Strano|website=Lifeboat.com|access-date=15 October 2018}}

==Career==

Strano held a postdoctoral research fellowship in Chemistry and Physics at Rice University, where he worked with Richard E. Smalley. In 2003, he became an Assistant Professor of Chemical and Biomolecular Engineering at the University of Illinois at Urbana-Champaign.

In 2007, he joined the Massachusetts Institute of Technology, where he became the Charles and Hilda Roddey Professor in Chemical Engineering{{cite web |title=February 1, Michael Strano, Massachusetts Institute of Technology |url=http://www.bu.edu/eng/archive_post/february-1-michael-straon-massachusetts-institute-of-technology/ |website=Boston University |access-date=5 June 2019|date=February 1, 2013}} and later the Carbon P. Dubbs Professor of Chemical Engineering.{{cite journal |last1=Trafton |first1=Anne |title=Bionic plants |journal=MIT News |date=March 16, 2014 |url=https://news.mit.edu/2014/bionic-plants |access-date=5 June 2019}}

Strano has done extensive work with carbon nanotubes{{cite web|url=http://www3.aiche.org/proceedings/AuthorDetails.aspx?PersonID=145461|title=Michael S. Strano - AIChE Academy|website=3.aiche.org|access-date=15 October 2018}} and holds a number of patents in this area.

He has examined the surface chemistry of carbon nanotubes, and the relationship of surface chemistry to the semiconductive, metallic, and insulating properties of nanotubes.

Strano is particularly interested in the enhancement of plants using carbon nanotubes, an approach to bioengineering that his group has termed "plant nanobionics".{{cite book |editor-last1=Ghorbanpour |editor-first1=M.|editor-last2=Varma |editor-first2=A. |last1=Ghorbanpour |first1=M. |last2=Fahimirad S. |first2=S. |title=Medicinal plants and environmental challenges|chapter=Plant Nanobionics: a Novel Approach to Overcome the Environmental Challenges |date=2017 |publisher=Springer |isbn=978-3-319-68716-2 |pages=247–257 |doi=10.1007/978-3-319-68717-9_14}}{{cite journal |last1=Giraldo |first1=Juan Pablo |last2=Landry |first2=Markita P. |last3=Faltermeier |first3=Sean M. |last4=McNicholas |first4=Thomas P. |last5=Iverson |first5=Nicole M. |last6=Boghossian |first6=Ardemis A. |last7=Reuel |first7=Nigel F. |last8=Hilmer |first8=Andrew J. |last9=Sen |first9=Fatih |last10=Brew |first10=Jacqueline A. |last11=Strano |first11=Michael S. |title=Plant nanobionics approach to augment photosynthesis and biochemical sensing |journal=Nature Materials |date=16 March 2014 |volume=13 |issue=4 |pages=400–408 |doi=10.1038/nmat3890 |pmid=24633343 |bibcode=2014NatMa..13..400G |s2cid=21882692 |url=http://www.escholarship.org/uc/item/9xx3364k }}

{{quote|"Plants are very attractive as a technology platform,... They repair themselves, they're environmentally stable outside, they survive in harsh environments, and they provide their own power source and water distribution." – Michael Strano, 2014}}

Strano began studying plant cells as a possible model for self-repairing solar cells. Researchers hoped that understanding the photosynthetic functions of chloroplasts could inform the design of solar cells.

They developed a technique called lipid exchange envelope penetration, or LEEP, to deliver a catalytic material such as nanoceria through the hydrophobic membrane around the chloroplasts and into the chloroplasts. The same technique can be used to move carbon nanotubes into chloroplasts. This can increase the range of wavelengths of light to which the plant can respond, and increase its photosynthetic activity.

With another technique, vascular infusion, researchers were able to deliver nanoparticles through the stomata of a plant by applying a nanoparticle solution to the bottom of a leaf. The nanotubes were able to enter the chloroplast and increase photosynthetic electron flow.

Strano's group has used carbon nanotubes to create plants that are biological sensors for the detection of chemicals such as hydrogen peroxide, TNT, and the sarin. The binding of a target molecule to a polymer in the nanotube causes the nanotube to fluoresce.

In 2017 Strano developed living watercress plants whose leaves contained nanoparticles of an enzyme called luciferase. Found naturally in fireflies, the plants used it to release stored energy as light. In 2019, Strano and architect Sheila Kennedy were one of 62 design teams in the 2019-2020 Design Triennial at the Cooper Hewitt, Smithsonian Design Museum. Their model of a house reimagines the structure to support the use of plants as light sources, with lightwells in the ceilings, ports for pollinators, and retaining walls filled with dirt.{{cite news |last1=Matchar |first1=Emily |title=These Glowing Plants Could One Day Light Our Homes: The Cooper Hewitt, Smithsonian Design Museum gives us a glimpse into a world where we read by a natural greenish glow |url=https://www.smithsonianmag.com/smithsonian-institution/these-glowing-plants-could-one-day-light-homes-180972238/ |access-date=4 June 2019 |work=Smithsonian |date=May 20, 2019}}

Strano is a co-editor with Shawn M. Walsh, of

Robotic systems and autonomous platforms: advances in materials and manufacturing (2019).{{cite book |last1=Walsh |first1=Shawn M. |last2=Strano |first2=Michael S. |title=Robotic systems and autonomous platforms: advances in materials and manufacturing |date=2019 |publisher=Woodhead Publishing |isbn=9780081020470}}

• 2016, World's Most Influential Scientific Minds of 2015, Thomson Reuters{{cite news |title=Congratulations to editors in the 'World's Most Influential Scientific Minds 2015 listing |url=https://www.materialstoday.com/amorphous/news/congratulations-influential-scientific-minds/ |access-date=5 June 2019 |work=Materials Today |date=22 January 2016}}
• 2016, Highly Cited Materials Science Researchers, Thomson Reuters{{citation |url=https://www.msesupplies.com/blogs/news/85232324-highly-cited-materials-science-researchers-2015 |title= Thomson Reuters Highly Cited Materials Science Researchers of 2015 |publisher=MSE Supplies |date=February 2, 2016 }}
• 2009, Popular Science's 'Brilliant 10'{{cite news |title=Ten Young Geniuses Shaking Up Science Today |url=https://www.popsci.com/science/article/2009-10/ten-young-geniuses-shaking-science-today#page-10 |access-date=5 June 2019 |work=Popular Science |date=October 19, 2009}}{{cite news |title=Strano, Rubins make PopSci's 'Brilliant 10' |url=https://news.mit.edu/2009/strano-rubins-make-popular-sciences-brilliant-10 |access-date=5 June 2019 |work=MIT News |date=October 23, 2009}}
• 2008, Colburn Award, American Institute of Chemical Engineers{{citation |url=http://www.aiche.org/community/awards/allan-p-colburn-award-excellence-publications-young-member-institute |title=Allan P. Colburn Award for Excellence in Publications by a Young Member of the Institute |date=28 March 2012 |publisher=American Institute of Chemical Engineers |access-date=30 August 2016 }}
• 2008, Young Investigator Award, Office of Naval Research{{cite web |title=2008 Young Investigators |url=https://www.onr.navy.mil/en/Science-Technology/Directorates/office-research-discovery-invention/Sponsored-Research/YIP/2008-young-investigator-recipients |archive-url=https://web.archive.org/web/20171007221310/https://www.onr.navy.mil/en/Science-Technology/Directorates/office-research-discovery-invention/Sponsored-Research/YIP/2008-young-investigator-recipients |url-status=dead |archive-date=October 7, 2017 |website=Office of Naval Research |access-date=5 June 2019|date=2008}}
• 2008, Outstanding Investigator Award, Materials Research Society{{cite web |title=Outstanding Young Investigator Award |url=https://www.mrs.org/oyi |website=Materials Research Society |access-date=12 June 2019}}
• 2007, Unilever Award, American Chemical Society
• 2006, Beckman Young Investigators Award{{cite web |title=Strano, Michael S. |url=http://www.beckman-foundation.org/beckman-young-investigators/michael-s-strano?A=SearchResult&SearchID=9466427&ObjectID=4732154&ObjectType=35 |website=Arnold and Mabel Beckman Foundation |access-date=12 June 2019}}
• 2006, Coblentz Award for Molecular Spectroscopy{{cite web |title=The Coblentz Award |url=http://www.coblentz.org/awards/the-coblentz-award |website=The Coblentz Society |access-date=12 June 2019}}
• 2005, Presidential Early Career Award for Scientists and Engineers{{cite news|url=http://ftp.csr.utexas.edu/pub/ggfc/misc/PECASE_PR_Release.pdf|title=White House Announces 2005 Awards for Early Career Scientists and Engineers|publisher=Office of Science and Technology Policy, Executive Office of the President|date=2006-07-26|access-date=2018-11-12|via=Center for Space Research, University of Texas at Austin}}
• Alfred P. Sloan Foundation Research Fellowship{{cite web |title=Sloan Research Fellowships |url=http://physics.rutgers.edu/~haule/Sloan/fellowshiplist.shtml |website=Rutgers School of Arts and Sciences |access-date=12 June 2019}}

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