Howard Wang - US grants

This Nanotechnology Undergraduate Education (NUE) in Engineering program entitled NUE: Nanotechnology for Manufacturing Flexible Electronics under the direction of Dr. Howard (Hao) Wang, SUNY at Binghamton, will develop a systematic undergraduate nanotechnology educational program in the School of Engineering with a focused theme of flexible electronics manufacturing and applications. The FlexE-NUE will address the educational needs in the great Nano/FlexE adventure at the undergraduate level through a series of courses, design projects, seminars, research and cyberinfrastructure experiences, as well as domestic and international collaborations.

Collaborative Research: Large-Scale Fabrication of Thin Polymer Nanocomposite Films
PI: Howard Wang (SUNY Binghamton) and Cheol Park (NIA)
Abstract

The objective of this research is to investigate fundamental materials processing issues associated with the large-scale fabrication of functional polymer nanocomposite films (PNFs) on flexible plastic substrates. Particularly, slot die coating (SDC) methods will be explored since SDC is one of a few industrial processes for precisely coating high quality films from liquid suspensions, and is compatible with roll-to-roll (R2R) manufacturing. More specifically, the research will investigate the challenges and possible solutions in coating PNFs using two representative materials systems: (1) polyimide containing single walled carbon nanotubes, (2) Pd-nanoparticle/polycarbonate composites. This large-scale SDC for these new functional nanomaterials has never been attempted and innovative external field (electrical or magnetic) induced morphology alteration is also proposed. With better understanding the dispersion and metastability in nanocolloid/polymer solutions and films, technologically meaningful methods to control equilibrium, metastable and non-equilibrium structures that lead to optimum device performance will be investigated. Furthermore, the degradation of the PNFs and the release of nanomaterials into the environment will be investigated by controlled UV radiation and through various materials characterization techniques.

If successful, this collaborative project will have a profound impact on broader materials challenges in the emerging industry of nanotechnology and flexible electronics. Particularly, (1) critical scientific and technological issues in large-scale fabrication of PNFs, such as the structure and dynamics of complex fluids and their responses to flow and force fields, will be addressed; (2) new understanding and better control of non-equilibrium and metastable structures arising due to the competing thermodynamic/dynamic driving forces in complex fluids and PNFs will be obtained; (3) a processing/morphology/property/performance database will be constructed as a part of materials informatics effort that will enable the development of constitutive equations and computational fluid dynamics models; and (4) the degradation and environmental impact of PNFs will be assessed. This project will engage in the BU?s NSF-funded undergraduate nanotechnology education program in ?Nanotechnology for Manufacturing Flexible Electronics?, and participate in the Go Green Institute which involves middle school students and teachers from 15 school districts in the southern tier of New York State. By introducing the basics of nanotechnology and flexible electronics to middle and high school students including minority and underrepresented ones, and providing the opportunity for them to gain hands-on experiences in real industrial settings in local electronics and materials companies, this program intends to help students of all backgrounds to capitalize on intellectual, career and commercial promises of nanotechnology and flexible electronics.

The primary objective of this workshop award is to reflect recent advances on several fronts of processing multiphase polymeric materials and to address major challenges related to design and processing issues in multiphase materials for an array of application areas including electronics, alternative energy, aerospace and biomedicine. The Multiphase Polymer Symposium will be held in conjunction with the American Chemical Society Spring National Meeting at the Convention Center in Salt Lake City, Utah, March 22 - 26, 2009.

The symposium will include scientists and engineers from a broad spectrum of disciplines and will provide a platform for a globally diverse community of engineers from the United States, Asia and Europe. The extensive interactions among industry, academia and research institutions facilitated by the symposium are expected to catalyze collaborations in the area of multiphase materials processing which can yield important advances in several industries.

Funds are requested to help support the Material Measurement Symposium to be held at the Materials Research Society Spring Meeting in San Francisco, California, April 9-13, 2012. The funds requested will be used to support graduate students and postdoctoral fellows attending the meeting.

The Material Measurement Symposium will consist more than 100 conference papers, including 15 invited talks, 58 contributed talks, and more than 30 contributed posters over 15 technical sessions (13 oral and 2 poster). The focus of the symposium is on emerging characterization techniques that hold the promise the help reveal the microscopic mechanisms underpinning the performance and life time of energy storage and conversion systems. This symposium will bring together scientists and engineers across various disciplines to address the most challenging issues in characterizing materials and energy systems in transient and nonequilibrium states.