News/Updates

November 2015

Discrete Object Additive Manufacturing (DOAM): Digital Three-Dimensional Printing of Cells and Microbeads within Hydrogel Matrices

At the Materials Research Society (MRS) annual meeting (2015) I will be presenting my work titled: Discrete Object Additive Manufacturing (DOAM): Digital Three-Dimensional Printing of Cells and Microbeads within Hydrogel Matrices  

Authors: C. R. Oliver, A. J. Hart,

Symposium: C3.09

Location: Hynes Level 3, Room 305

Time: Dec 1 (Tuesday): 11:30 AM to 11:45 AM

 

I hope to see you there and have a lively discussion.

 

Scalable Fabrication of Stimuli-Responsive Liquid Crystalline Polymer Microstructures by Replica Molding

At the Materials Research Society (MRS) annual meeting (2015) Hangbo Zhao will be presenting our work titled:  Scalable Fabrication of Stimuli-Responsive Liquid Crystalline Polymer Microstructures by Replica Molding.

Authors: Hangbo Zhao, Jeong Jae Wie, Davor Copic, C. Ryan Oliver, Alvin W. Orbaek, Sanha Kim, and A. John Hart

Presentation: Oral

Symposium: Y. Shape Programmable Materials  

Location: Hynes, Level 1, Room 105

Time: December 1, 2015 (Tuesday)  2:15-2:30 pm

 

I hope to see you there and have a lively discussion.

June 2015

Join us at the 2015 C. elegans International Conference

Eleni Gourgou and I will be presenting “Real-time behavioral study of C. elegans by dynamic in situ photopatterning of hydrogel assays” at the 2015 C. elegans International Conference.  Hope to see you there June 24-28.

http://www.genetics-gsa.org/celegans/2015/

Abstract:

Real-time behavioral study of C. elegans by dynamic in situ photopatterning of hydrogel assays

Eleni Gourgou1, 2*, C. Ryan Oliver1, 3*, Daphne Bazopoulou1, Nikos Chronis1, 4, A. John Hart3

1Mechanical Engineering, University of Michigan, Ann Arbor, MI

2Internal Medicine, Division of Geriatrics, Medical School, University of Michigan, Ann Arbor, MI

3Mechanical Engineering and Laboratory for Manufacturing and Productivity, Massachusetts Institute of Technology, Cambridge, MA

4Biomedical Engineering, University of Michigan, Ann Arbor, MI

*Equal […]

May 2015

Photopatterning of freeform surfaces using a modular robotic system.

We will be presenting our work entitled “Photopatterning of freeform surfaces using a modular robotic system.” at the SFF conference in August.

 

Dynamic printing of cells and microbeads for custom microfluidic assays

We will be presenting our work at SFF in August on “Dynamic printing of cells and microbeads for custom microfluidic assays”.

Join us or contact us for more information.

January 2015

MARC 2015: “Robotic photopatterning of large 3D surfaces”

Adam Stevens presented our work on Robotic photopatterning of large 3D surfaces.

Congratulations to Adam for winning the best speech award.

December 2014

Beginning a new position at MIT as a Postdoctoral associate

Quick update and thank you to Professor Hart for continuing our work together and taking me on as a postdoctoral associate for the next year.  I’m honored and looking forward to visiting Boston again.

 

 

Graduation Day: Thank you all and happy graduation day

Today was the Winter UofM Graduation Ceremony.  Congratulations to all the graduates on their accomplishments.  It was electric and the speaker, Charles F. Bolden Jr. was fantastic.

November 2014

MRS Fall 2014: A robotic lithography system for micropatterning of Large 3D Surfaces

MRS 2014 is coming up and we will presenting our work there.  A big thank you to the chairs Husam N. Alshareef, Amit Goyal, Gerardo Morell, José A. Varela, In Kyeong Yoo for organizing this year.

Adam Stevens and I will be presenting “A robotic lithography system for micropatterning of Large 3D Surfaces”.  We will be presenting in the ZZ1.03 session.  Hope to see you there.

 

Defense Day: Success! Thank you for all your support

Last week, was the official defense of my thesis.  I successfully passed and submitted the final version of my dissertation to UM’s Rackham Graduate School.

A special thank you to my committee, my colleagues and family.