Dear Colleagues,
You are warmly invited to submit your one-page abstract to our Symposium E-3: Advanced Nano-Manufacturing for Multi-functional Nanosystems for the 53rd Annual Technical Meeting of the Society of Engineering Science (SES2016)
Deadline for submission of Abstracts is June 15, 2016.
Co-organizers:
Hongli Zhu, Northeastern University
h.zhu [at] neu.edu (h[dot]zhu[at]neu[dot]edu)
Wenzhuo Wu, Purdue University
wenzhuowu [at] purdue.edu (wenzhuowu[at]purdue[dot]edu)
Huanyu Cheng, The Pennsylvania State University
huanyu.cheng [at] psu.edu (huanyu[dot]cheng[at]psu[dot]edu)
Yang Yang, University of Central Florida
Yang.Yang [at] ucf.edu (Yang[dot]Yang[at]ucf[dot]edu)
Ying Li, University of Connecticut
yingli [at] engr.uconn.edu (yingli[at]engr[dot]uconn[dot]edu)
Symposium Technical Description
Advanced Nano-manufacturing is the production of useful nano-scale materials, structures, devices and systems in an economically viable manner. Flexible electronics immerge as a promising research field with huge market potential. The mechanics, materials, and fabrication process in flexible and stretchable electronics are attracting broad attention. For example, with the development of nano-ink, people can print electronics on flexible substrate via roll to roll or sheet to sheet process; Multifunctional fiber, textile, and paper have broad application in flexible and wearable electronics and energy storage, which is extremely important for advanced nano-manufacturing. This SES symposium is intended to provide a forum for scientists and engineers working in advanced nano manufacturing, nano materials, and the related fields to communicate recent progress on current technologies and to exchange ideas about next-generation solutions.
Topics addressed in this symposium will include (but will not be limited to):
- Electronics devices fabrication, such as piezoelectronics, flexible electronics, plasmonics and nanophotonics,
- Advanced nanomanufacturing process, such as 3D printing, roll to roll printing
- Nano–manufacturing of functional materials, such as 0D, 1D and 2D nano materials preparation at relative large scale
- Nano-manufacturing for energy applications, such as solar cells, batteries, and hydrogen evolution reaction
- Fundamental nano-manufacturing science, such as mechanical/thermal/electrical/optical and multi-scale modeling
- Mechanics and materials in advanced technologies, energy harvesting and storage (batteries, super-capacitors, PV), flexible/stretchable electronics, and organic electronics
- Other emerging applications such as smart materials, membranes and others