• MULTI-LAYERED, VARIABLE POROSITY SOLID- STATE LITHIUM-ION ELECTROLYTES: RELATIONSHIP BETWEEN MICROSTRUCTURE AND LITHIUM-ION BATTERY PERFORMANCE 

  Hamann, Tanner (2019)

  The global drive to create safer, higher capacity energy storage devices is increasingly focused on the relationship between the microstructures of electrochemically- active materials and overall battery performance. The ...

• ATOMIC LAYER DEPOSITION OF LEAD ZIRCONATE-TITANATE AND OTHER LEAD-BASED PEROVSKITES 

  Strnad, Nicholas Anthony (2019)

  Lead-based perovskites, especially lead zirconate-titanate (PbZrxTi1-xO3, or PZT), have been of great technological interest since they were discovered in the early 1950s to exhibit large electronic polarization. Atomic ...

• 3D-PRINTED POLYSTYRENE FOR CELL CULTURE 

  Lerman, Max Jonah (2019)

  Efficient methods to expand stem cells ex vivo hold significant promise in many clinical applications. For example, hematological malignancies account for nearly 10% of cancer related deaths in the United States of America ...

• Biomimetic polymer based composites with 1-D titania fillers for dental applications 

  Mallu, Rashmi Reddy (2018)

  The aim of this study was to develop acrylic matrix composites reinforced with one-dimensional (1-D) titanium dioxide (TiO2) micro and nano fillers that mimic the structure of enamel. To accomplish this, 1-D TiO2 was ...

• SYNTHETIC DEVELOPMENT AND ELECTRODE PROCESSING OF LOW-DIMENSIONAL NANOMATERIALS FOR ADVANCED ELECTROCHEMICAL SYSTEMS 

  Lacey, Steven David (2018)

  Future advancements in terms of energy storage systems (lithium-ion batteries [LIBs] and beyond) rely on the development of novel materials, innovative electrode/device architectures, and scalable processing techniques or ...

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