Page 110 - Technology and Innovation Journal - 19-1
P. 110
448 THE NAI PROFILE
teams to all individual successes, including his own. electrolytes for lithium batteries. Proc Natl Acad
Cognizant that many people believe that mentioning Sci USA. 111(9):3327; 2014.
teamwork is something done by rote, he’s adamant in 7. National Research Council. Convergence:
insisting on the veracity of this sentiment, noting that facilitating transdisciplinary integration of life
when you are really in the thick of any creative work, sciences, physical sciences, engineering, and
you cannot help but recognize the simple and central beyond. Washington (DC): The National Acad-
truth that your success is determined not by you but emies Press; 2014 [accessed 2017 May 1]. http://
by the quality of the people around you. Key to that www.nap.edu/catalog. php? record_id=18722.
quality, in his estimation, is the range of perspectives 8. Xu J, Wong DHC, Byrne JD, Chen K, Bower-
that his group can bring to the table. When consid- man C, DeSimone JM. Future of the Particle
ering whether he feels that he has been successful
at Carbon in assembling a team that reflects that Replication in Nonwetting Templates (PRINT)
commitment to diversity and a true sense of what he Technology. Angew Chem Int Ed Engl.
means by convergence, his response is unequivocal: 52(26):6580-6589; 2013.
“Oh yeah. We are the land of misfit toys here, and 9. Perry JL, Herlihy KP, Napier ME, DeSimone JM.
it’s pretty fun. Everybody’s cherished, everybody’s PRINT: a novel platform toward shape and size
different; it’s pretty neat.” With that philosophy front specific nanoparticle theranostics. Acc Chem
and center, there is little doubt that Carbon will make Res. 44(10):990-998; 2011.
good on the lofty objectives that DeSimone and his 10. Gratton SEA, Ropp PA, Pohlhaus PD, Luft
team have set. JC, Madden VJ, Napier ME, DeSimone JM.
The effect of particle design on cellular inter-
FURTHER READING nalization pathways. Proc Natl Acad Sci USA.
1. DeSimone JM, Mecham SJ, Farrell CL. Organic 105(33):11613-11618; 2008.
polymer chemistry in the context of novel pro- 11. Rolland JP, Maynor BW, Euliss LE, Exner AE,
cesses. ACS Cent Sci. 2(9):588-597; 2016. Denison GM, DeSimone JM. Direct fabrica-
2. Janusziewicz R, Tumbleston J, Quintanilla AL, tion and harvesting of monodisperse, shape
Mecham SJ, DeSimone JM. Layerless fabrication specific nano-biomaterials. J Am Chem Soc.
with continuous liquid interface production. 127(28):10096-10100; 2005.
Proc Natl Acad Sci USA. 113(42):11703-11708; 12. Rolland JP, Van Dam RM, Schorzman DA,
2016. Quake SR, DeSimone JM. Solvent resistant “liq-
3. Tumbleston JR, Shirvanyants D, Ermoshkin uid Teflon” for microfluidic device fabrication.
N, Janusziewicz R, Johnson AR, Kelly D, Chen J Am Chem Soc. 126(8):2322-2323; 2004.
K, Pinschmidt R, Rolland JP, Ermoshkin A, 13. McClain JB, Londono D, Combes JR, Romack
Samulski ET, DeSimone JM. Continuous liq- TJ, Canelas DA, Betts DE, Samulski ET, Wignall
uid interface production of 3D objects. Science. G, DeSimone JM. Design of non-ionic surfac-
347(6228):1349-1352; 2015.
4. DeSimone JM, Farrell CL. Driving conver- tants for supercritical carbon dioxide. Science.
gence with human diversity. Sci Transl Med. 274(5295) 2049; 1996.
6(238):238ed11; 2014. 14. DeSimone JM, Maury EE, Menceloglu YZ,
5. DeSimone JM. The role of diversity in commer- Combes JR, McClain JB, Romack T. Dispersion
cializing basic science. Res Technol Manage. polymerizations in supercritical carbon dioxide.
57(6):16-20; 2014. Science. 265(5170):356-359; 1994.
6. Wong DH, Thelen JL, Fu Y, Devaux D, Pandya 15. DeSimone JM, Guan Z, Elsbernd CS. Synthesis of
AA, Battaglia VS, Balsara NP, DeSimone JM. fluoropolymers in supercritical carbon dioxide.
Nonflammable Perfluoropolyether-based Science. 257(5072):945-947; 1992.
