教育
博士学位, Theoretical/Applied 理论物理ics: West Virginia University
MS, Theoretical 理论物理ics: Ohio University
物理学学士:俄亥俄大学
传记
杰罗德·Schiffbauer, 博士学位, earned his bachelor's of science and master's of science degrees in the Department of 理论物理ics at Ohio University. He taught there for two years before heading to West Virginia University (WVU) to earn his 博士学位. His graduate school work focused on fundamentals of measurement theory in quantum mechanics (Ohio University) and non-linear, non-equilibrium physics of micro-nano fluidic systems (WVU). As a postdoctoral researcher at the University of Notre Dame and the Technion – Israel Institute of Technology, Schiffbauer continued work on applications of non-linear, 非平衡输运物理学, developing a program of combined theory and experimental characterization for micro-nano fluidic systems and working on functionalizing surfaces to tune nanoscale heat transport and phase change at nanostructures. Schiffbauer’s work has applications at the so-called Food-Water-Energy Nexus, specifically in solar-thermal conversion and desalination, 在先进的生物医学领域也是如此.
As a visiting assistant professor of physics at pp电子极速糖果, Schiffbauer has continued to promote his philosophy that active, collaborative research is an integral part of the learning process and a critical component of the university environment, 一个是对学生有益的, professors and the larger community. 为此目的, Schiffbauer endeavors to develop a synergy between his research and classroom teaching, bringing research topics into discussions and involving students in active projects. He is currently working with two pp电子极速糖果 students on two theory and numerical simulation projects. One project concerns the driven-diffusive motion of molecules in a 1D potential, relevant to a variety of physical processes including charge transport and heat transport in long-chain molecules such as DNA. The other project involves the implementation and testing of an improved theoretical model for continuum heat transfer at functionalized, nanoscale interfaces and will be used in designing an advanced solar desalination system.
选定的出版物
Schiffbauer N.Y. Ganchenko G.S. 甘琴科和E.A. Demekhin。”Overlimiting current due to electro-diffusive amplification of the second Wien effect at a cation-anion bipolar membrane junction, Biomicrofluidics, 12, 064107 (2018)
J. Schiffbauer和T. 罗。”Liquid phase stabilization versus bubble formation at a nanoscale curved interface,《物理. 牧师. E., 97, 033106, 2018
E. 李,我. Schiffbauer,·hc·. Chang和T. 罗。”Contact line de-pinning by plasmonic nanoparticle heating leads to fast light-guided surface bubble movement,"提交给《科学》杂志的手稿"
J. 杨,Y. 庞,W. 黄,年代. K. 肖,我. Schiffbauer, M. A. 皮,X. 亩,年代. 罗,T. 张,Y. 黄G. 李,年代. Ptasinska, M. 利伯曼和T. 罗。”Functionalized Graphene Enables Highly Efficient Solar Thermal Steam Generation,[j] .化学工程学报,2017,31 (2):555 - 555
S. 罗,我. Schiffbauer和T. 罗 “Effect of Cooling on Droplet Size in Supersaturation-Induced Emulsion,” 理论物理. 化学. 化学. 理论物理.,19, 29855-29861,(2017)
J. Schiffbauer U. Liel和G. Yossifon。”Concentration-dependence of nanochannel impedance and the determination of surface charge,” 物理评论89,033017 (2014)
J. Schiffbauer和G. Yossifon。”Role of Electro-osmosis in the Impedance Response of Microchannel-Nanochannel Interfaces,” 物理评论E. 86, 056309 (2012)
J. Schiffbauer,年代. Park和G. Yossifon, “Electrical Impedance Spectroscopy of Microchannel-Nanochannel Interface Devices,” 理论物理ical 牧师iew Letters, 110, 204504 (2013)
J. Schiffbauer N. 莱博维茨和G. Yossifon, “Extended space charge near non-ideally selective membranes and nanochannels,” 物理评论E,92, 013002 (2015)
J. Schiffbauer U. Liel N. 莱博维茨,年代. Park和G. Yossifon, “Probing space charge and resolving overlimiting current mechanisms at the micro-nanochannel interface,” 物理评论E, 92, 013001 (2015)