GGPF Self-Assembly of Polymer-Grafted Nanocrystals via Solvent Annealing-2017-05-22

Event Information
Event Name: 
GGPF Self-Assembly of Polymer-Grafted Nanocrystals via Solvent Annealing
Event Date: 
05/22/2017 - 4:30pm
Event Location: 
Michaels at Shoreline Restaurant, Mountain View
Event Details
Event Type: 
Lecture
Event Details: 

Golden Gate Polymer Forum , Monday Evening, May 22,2017

Topic: “Self-Assembly of Polymer-Grafted Nanocrystals via Solvent Annealing"
Speaker: Ricardo Ruiz, Western Digital Corporation
Date and Time: Monday, May 22, 2017, 6:00 pm
Location: Michael's at Shoreline, 2960 N Shoreline Blvd., Mountain View
Cost: Employed/postdocs: $30 early registration, $35 regular registration; Unemployed/retired/students: $15 early registration; $20 regular registration
Free if you attend just the lectures at 8:00 PM (but please let us know for headcount)
After deadline:
Registration not guaranteed, so contact us
Late fee applies if space available -- $40 regular/employed, $25 unemployed/student/retired
Deadlines for registration:
End of discounted advance registration Monday, May 15, 11:59 PM
End of regular (full-price) registration Friday, May 19, 5:00 PM
Please register on the web page, www.GGPF.org

PLEASE NOTE:
We accept cash or checks at the door, but are unable to accept payment by credit card at the event.
You may pay at the door.
Checks may be made to "GGPF"
Discounted advanced registration ends Monday, May 15, 11:59 PM.
Full-price regular registration deadline is Friday, May 19, 5:00 PM.
Register at www.GGPF.org (PayPal is enabled if desired)
Or, if necessary, contact:
Len Radzilowski
lradzilo@te.com
650-361-3264

Topic Description
Nanocrystal superlattices are attractive as building blocks for artificial solids in a wide range of applications including optical, electronic, photovoltaic, thermoelectric and biocompatible devices to name a few. A common challenge to commercialize superlattice-based devices is the difficulty associated in controlling the self-assembly over wafer-scales with monolayer thickness control. Most commonly, nanocrystal superlattices are self-assembled through kinetically-driven methods such as solvent drying mediated assembly, or through complex liquid interfaces that are not compatible with large area, high volume manufacturing. Polymer-grafted nanocrystals (PGNCs) in controlled solvent atmospheres (solvent annealed) are particularly attractive because of their dual colloidal and polymeric properties that facilitate self-assembly towards thermodynamic equilibrium. PGNCs share properties with star polymers, and when the inorganic cores are sufficiently screened by the polymer ligands, their thermodynamic properties can be understood in terms of the Daoud-Cotton model developed for star polymers. In this work we study the assembling properties of Fe3O4 nanocrystals tethered with polystyrene ligands. We confirm swelling and assembly properties according to the Daoud-Cotton model. As predicted for star polymers, we confirm a phase transition as a function of particle density into a hexatic phase. We exploit the polymeric properties of PGNCs to perform directed self-assembly to achieve orientation control over large areas. Overall, the polymeric and colloidal duality of PGNCs open interesting opportunities for the self-assembly of superlattices with an ease of processing typical of polymer films.
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Speaker Bio
Ricardo Ruiz is a research technologist at Western Digital Corp. His research interests span alternative nanofabrication techniques for storage and memory devices, block copolymer lithography, and colloidal self-assembly. From 2013 to 2016 he managed a Nanopatterning and Self Assembly group at HGST dedicated to block copolymer and colloidal lithography. Prior to that, he was a research staff member at HGST where he helped introducing block copolymer lithography for magnetic bit patterned media technology. Before joining HGST, he was a postdoctoral scientist at IBM T.J. Watson Research Center. He received his PhD in Physics from Vanderbilt University in 2003, has co-authored over 50 publications, and holds 35 US Patents. He is a fellow of the American Physical Society and was the recipient of the 2016 ACS Applied Materials and Interfaces Young Investigator Award. He has also co-taught short courses (on Directed Self Assembly and its Application to Nanoscale Fabrication), along with Prof. Juan de Pablo and Prof. Paul Nealey, at the annual SPIE Advanced Lithography meeting.