Hunting an Electrochemical Sasquatch: The Search for Phase Pure NaSICON Ceramic Electrolytes
Abstract not provided.
Publications
The Influences of Excess Sodium on NaSICON Materials Chemistry
Abstract not provided.
Solution Chemistry Substrate and Processing Effects on the Chemical Heterogeneity in PZT Films
Abstract not provided.
Substrate and Solution Chemistry Effects on Chemical Homogeneity in PbZr0.52Ti0.48O3 Thin Films on Platinized Silicon Substrates
Abstract not provided.
Conical Nanopores Fabricated via a Pressured-Biased Chemical Etch
Small
Abstract not provided.
Controlled Nucleation and Growth of Pillared Paddlewheel Framework Nanostacks onto Chemically Modified Surfaces
ACS Applied Materials and Interfaces
Abstract not provided.
The Influences of Excess Sodium on Low Temperature NaSICON Synthesis
Journal of Materials Chemistry
Abstract not provided.
Active assembly of dynamic and adaptable materials :
Abstract not provided.
Energy Transfer Cascades Using Donor-Acceptors Pairs Confined in a Metal-Organic Framework
Journal of Physical Chemistry A
Abstract not provided.
Phase Development and Densification of NaSICON Ceramics
Abstract not provided.
Solution chemistry, substrate, and processing effects on the chemical heterogeneity in PZT films
Abstract not provided.
Active Assembly of Dynamic and Adaptable Materials
Abstract not provided.
Rusty orzo with lemon on the side :
Abstract not provided.
Ion-Selective Ceramics for Mixed Waste Separations
Abstract not provided.
Supramolecular Assembly of Asymmetric Self-neutralizing Amphiphilic Peptide Wedges
Soft Matter
Abstract not provided.
Nanoporous metalorganic frameworks :
Abstract not provided.
Bio-Inspired Growth of Cadmium Sulfide Nanotubes on Microtubule Templates
Abstract not provided.
Engineered Peptides for Controlled Nanofiber Assembly
Abstract not provided.
Nanoscale Phase Segregation of a Molecular System using Metal-Organic Framework for Energy Transfer
Abstract not provided.
Nano-ordering of donor-acceptor interactions using Metal-Organic Frameworks as scaffolds
ECS Transactions
Metal-Organic Frameworks (MOFs) are nanoporous materials with tunable pore sizes that can accommodate and stabilize small molecules. Because of their long-range order and wellunderstood pore environment, the nano-confinement of donoracceptor materials within MOFs offers a new methodology for creating uniform phase-segregated donor-acceptor interfaces. Phase segregation and the photo-physical effects of confining α,ω-Dihexylsexithiophene (DH-6T) and [6,6]-phenyl-C61-butyric acid methyl ester (PCBM) in several MOFs and the potential role of the MOF in creating a nano-heterojunction for organic photovoltaics are discussed. We demonstrate infiltration of both molecules into MOF pores and use luminescence and absorption spectroscopies to characterize the MOF-guest energy transfer processes. Comparison with density functional theory allows us to determine the energetics and band alignment within the MOF. The results demonstrate the utility of MOFs as scaffolds for sub-nanoscale ordering of donor and acceptor species within a highly uniform environment, allowing both the interaction and separation distance to be much more controlled than in the classical bulk heterojunction. © The Electrochemical Society.
The Roles of Solution Chemistry Substrate and Pyrolysis Temperature on the Chemical Heterogeneity in PZT Films
Abstract not provided.
First-Principles Investigation of Metal-Organic Frameworks for Photovoltaics
Abstract not provided.
Record breaking solar cells : ZnxCd(1-x)Te graded bandgap nanoarrays
Abstract not provided.
Materials Xenoscience: Exploring Emergent Materials at Non-Traditional Interfaces Between Materials Science and Biology
Abstract not provided.
Towards Dislocation-Free ZnCdTe Solar Cells Through Nanoscale Crystal Growth And Compositional Grading
Abstract not provided.
Results 176–200 of 251