Additive manufacturing. Continuous liquid interface production of 3D objects

Science
John R TumblestonJoseph M DeSimone

Abstract

Additive manufacturing processes such as 3D printing use time-consuming, stepwise layer-by-layer approaches to object fabrication. We demonstrate the continuous generation of monolithic polymeric parts up to tens of centimeters in size with feature resolution below 100 micrometers. Continuous liquid interface production is achieved with an oxygen-permeable window below the ultraviolet image projection plane, which creates a "dead zone" (persistent liquid interface) where photopolymerization is inhibited between the window and the polymerizing part. We delineate critical control parameters and show that complex solid parts can be drawn out of the resin at rates of hundreds of millimeters per hour. These print speeds allow parts to be produced in minutes instead of hours.

References

Apr 11, 2006·Nature Materials·Dhananjay DendukuriPatrick S Doyle
Mar 27, 2010·Science·John A RogersYonggang Huang
Sep 29, 2011·Langmuir : the ACS Journal of Surfaces and Colloids·Su Kyung SuhPatrick S Doyle
Nov 19, 2011·Science·T A SchaedlerW B Carter
Apr 24, 2012·Nature Chemistry·Mark D SymesLeroy Cronin
Nov 16, 2012·Science Translational Medicine·Anthony AtalaAntonios G Mikos
Nov 20, 2012·Science·Brian Derby
Jun 19, 2013·Advanced Materials·Ke SunJennifer A Lewis
Jul 31, 2013·Proceedings of the National Academy of Sciences of the United States of America·Promita Chakraborty, Ronald N Zuckermann
Oct 3, 2013·Chemical Reviews·Samuel Clark LigonRobert Liska
Dec 7, 2013·Advanced Materials·Siegfried BauerReinhard Schwödiauer
Jan 18, 2014·Analytical Chemistry·Bethany C GrossDana M Spence
Feb 20, 2014·Proceedings of the National Academy of Sciences of the United States of America·Jens BauerOliver Kraft
Apr 26, 2014·Lab on a Chip·Jayda L ErkalDana M Spence
Jun 21, 2014·Science·Xiaoyu ZhengChristopher M Spadaccini
Jul 2, 2014·Proceedings of the National Academy of Sciences of the United States of America·Caroline CvetkovicRashid Bashir

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Citations

Aug 26, 2015·Expert Review of Medical Devices·Mohit P ChhayaDietmar W Hutmacher
Oct 7, 2015·Annals of Biomedical Engineering·Sean S MooreFrancesco Verdecchia
Feb 19, 2016·Angewandte Chemie·Tanja K ClausChristopher Barner-Kowollik
Oct 27, 2015·Chemical Reviews·Tomasz JungstJürgen Groll
Feb 9, 2016·Angewandte Chemie·Anthony K AuAlbert Folch
Feb 3, 2016·Advanced Materials·Kun FuLiangbing Hu
Nov 17, 2015·Biosensors & Bioelectronics·Germán CominaDaniel Filippini
Dec 8, 2015·ACS Applied Materials & Interfaces·Jiazhen SunYanlin Song
Jan 12, 2016·Chemical Society Reviews·André R Studart
Nov 10, 2015·Small·Shohei HabasakiShoji Takeuchi
Jan 9, 2016·Small·Shu HeChad A Mirkin
Mar 29, 2016·Sensors and Actuators. B, Chemical·Haipeng YangYuehe Lin
Oct 24, 2015·Dental Materials : Official Publication of the Academy of Dental Materials·Jeffrey W Stansbury, Mike J Idacavage
Nov 7, 2015·Biomacromolecules·Matthew J Glassman, Bradley D Olsen
Nov 13, 2015·Radiographics : a Review Publication of the Radiological Society of North America, Inc·Dimitris MitsourasFrank J Rybicki
Nov 28, 2015·Scientific Reports·Flaviana CalignanoAlessandro Chiolerio
Mar 24, 2016·Advanced Drug Delivery Reviews·James NormanAkm Khairuzzaman
Mar 19, 2016·Advanced Materials·Erika FantinoFlaviana Calignano
Aug 25, 2015·World Neurosurgery·Rami James N AounBernard R Bendok
Apr 5, 2016·Current Opinion in Biotechnology·Wei ZhuShaochen Chen
Jul 5, 2016·Science and Technology of Advanced Materials·Matthew SkorskiMatthew R Hartings
Sep 16, 2015·Proceedings of the National Academy of Sciences of the United States of America·Yihui ZhangJohn A Rogers
Apr 7, 2016·Chemical Society Reviews·Adriano Ambrosi, Martin Pumera
Jul 15, 2015·Advanced Materials·Alessandra VitaleRoberta Bongiovanni
Jun 23, 2015·Advanced Healthcare Materials·Anh-Vu DoAliasger K Salem
Apr 15, 2016·Nature Protocols·Philip J KitsonLeroy Cronin
Jun 13, 2015·Lab on a Chip·M M StantonS Sánchez
Apr 22, 2016·Lab on a Chip·Nirveek BhattacharjeeAlbert Folch
Apr 24, 2016·Urology·Maxwell V Meng
May 6, 2016·Lab on a Chip·Sidra WaheedMichael C Breadmore
Aug 22, 2015·PloS One·Jason S NaftulinSydney S Cash
May 20, 2016·Pharmaceutical Research·Mohamed A AlhnanBasel Arafat
May 28, 2016·Annals of Biomedical Engineering·Dylan RichardsYing Mei
Jun 22, 2016·Annals of Biomedical Engineering·Ryan TrombettaHani A Awad
Jul 19, 2016·Faraday Discussions·Hye Rin KwagDavid H Gracias
Sep 13, 2016·Analytical Methods : Advancing Methods and Applications·Chengpeng ChenR Scott Martin
Aug 6, 2016·Advanced Drug Delivery Reviews·Patrina S P PohDietmar W Hutmacher
Aug 9, 2016·Scientific Reports·Qi GeMartin L Dunn
Aug 27, 2016·Langmuir : the ACS Journal of Surfaces and Colloids·Xiaoqing HuaJoelle Frechette
Oct 12, 2016·ACS Central Science·Joseph M DeSimoneCrista L Farrell
Sep 23, 2016·Nature·Kai MeldePeer Fischer
Sep 27, 2016·Scientific Reports·Yanhui Jiang, Qiming Wang
Oct 30, 2016·Proceedings of the National Academy of Sciences of the United States of America·Rima JanusziewiczJoseph M DeSimone

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