L
Lorraine F. Francis
Researcher at University of Minnesota
Publications - 240
Citations - 8624
Lorraine F. Francis is an academic researcher from University of Minnesota. The author has contributed to research in topics: Coating & Particle. The author has an hindex of 47, co-authored 234 publications receiving 7450 citations. Previous affiliations of Lorraine F. Francis include Urbana University & University of Illinois at Urbana–Champaign.
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Journal ArticleDOI
Dispersible exfoliated zeolite nanosheets and their application as a selective membrane
Kumar Varoon,Xueyi Zhang,Bahman Elyassi,Damien D. Brewer,Melissa Gettel,Sandeep Kumar,J. Alex Lee,Sudeep Maheshwari,Anudha Mittal,Chun Yi Sung,Matteo Cococcioni,Lorraine F. Francis,Alon V. McCormick,K. Andre Mkhoyan,Michael Tsapatsis +14 more
TL;DR: The synthesis and structure determination of highly crystalline nanosheets of zeolite frameworks MWW and MFI are demonstrated, which allow them to pack well on porous supports, facilitating the fabrication of molecular sieve membranes.
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High-resolution patterning of graphene by screen printing with a silicon stencil for highly flexible printed electronics.
TL;DR: High-resolution screen printing of pristine graphene is introduced for the rapid fabrication of conductive lines on flexible substrates and provides an efficient method to produce highly flexible graphene electrodes for printed electronics.
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Processing and characterization of piezoelectric materials and integration into microelectromechanical systems
TL;DR: In this paper, the authors present some recent and emerging applications of piezoelectric MEMS including acoustic emission microsensors, vibration monitors, molecular recognition biosensors and precision positioners, micropumps, and linear stepper motors.
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Gravure Printing of Graphene for Large‐area Flexible Electronics
TL;DR: Gravure printing of graphene is demonstrated for the rapid production of conductive patterns on flexible substrates, providing an efficient method for the integration of graphene into large-area printed and flexible electronics.
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Optimization of Aerosol Jet Printing for High-Resolution, High-Aspect Ratio Silver Lines
TL;DR: The influence of process parameters on the geometry of aerosol-jet-printed silver lines is studied with the aim of creating high-resolution conductive lines of high current carrying capacity and an operability window is developed.