Website: Bejger Research Group
Design, synthesis, and assembly of molecular cluster materials and coordination polymers for energy applications.
Research in the Bejger lab is focused on the design, synthesis, and assembly of molecular clusters for energy applications. The chemical and electronic structures of molecular clusters can be modified synthetically; this allows us to tune their physical properties and create new materials with nanoscale control. We synthesize these custom-made cluster...
Website: Cho Lab
Brain-on-Chips, plasmonic optofluidics, and healthcare/environmental monitoring.
Dr. Cho's research focuses on organ-on-chips, nanobiosensors for the study of neurosciences and cancer biology, innovative mechanical components evolving multiple physics, and portable platforms for healthcare diagnostics and environmental sustainability.
Nanomateirals synthesis and characterization, nanomedicine, and plasmonics.
The enduring problem that faces cancer patients is that treatments can be very difficult, yet the benefits of the treatments can be uncertain. This is because toxic treatments destroy normal cells while often permitting the most aggressive cancer cells to survive. A straightforward solution is to selectively deliver cancer drugs to cancer cells and not normal cells. Unfortunately, existing technologies to do this have limitations, and their impact on patient health has not been as great...
Website: El-Ghannam Group
Design of novel bioactive nano-composites for applications in orthopedic and maxillofacial surgeries, tissue engineering and targeted drug delivery in soft and hard tissues.
Website: Etzkorn Group
Preparative and physical organic chemistry, construction of complex fluorinated frameworks for molecular recognition or self-assembly with potential applications in sensing and sequestration; mechanistic investigation of the chemistry of unusual polycyclic scaffolds; extended (fluorinated) pi-systems as ligands in organometallic systems.
The Etzkorn group targets fluorinated molecular tweezers of different molecular architecture in a convergent approach...
Website: Michael Fiddy Research Group
Scattering and propagation of electromagnetic waves; inverse scattering algorithms, properties of metamaterials; low and negative index nanostructures and their applications for managing light and superresolution imaging.
Website: Tsinghua Research Group
Index-antiguided wavelength lasers, metafibers and metafabrics, and phase-sensitive light-matter interactions.
In Tsinghua Research Group (THRG), we use engineering principles to study science and to enable their real-world applications. We conduct innovative and multi-disciplinary research in the fields of physics, optics, and photonics. The lab has two complimentary missions. The first mission is to solve critical problems in optics, physics,...
Website: The Indrasekara Lab
Nanotechnology/Analytical Chemistry/Materials Chemistry
We are interested in designing new optically active nanomaterials and using them to develop optical spectroscopy-based analytical tools. At the nanometer scale, noble metals such as gold, silver, platinum, and copper exhibit unique, synthetically tunable optical properties. One such property of noble metal nanomaterials is the large optical field enhancement leading to strong absorption and...
Website: Krueger Research Team
Biophysical Chemistry: Structural information on bio/nano-molecular associations using spectroscopic techniques; in particular, light scattering (UV-VIS, X-ray and neutron), FTIR, Circular Dichroism and visualization of those associations through the use of molecular modeling.
A protein is a polymeric molecule, a long chain of individual units linked covalently together. In the case of a protein polymer, it is of a specific length and unit sequence...
Website: Nesmelov Lab
Biological molecular motors.
We study myosin molecular motor. Myosin interacts with two ligands, ATP and actin, thus performing cyclic conformational change and producing force. We are interested in microscopic mechanism of myosin function, and regulation of myosin and actomyosin kinetics. In our work we combine protein mutagenesis, labeling, and different methods of transient kinetics to explore myosin functional dynamics on molecular and submolecular level.
Website: Nesmelova Lab
Structure-function-dynamics of proteins, protein-protein interactions, translational diffusion of proteins, and protein-stabilized metal nanoclusters.
Experimental biophysics at the nanoscale. We investigate how structure, dynamics, and interactions with binding partners define the function of a protein. The goal is to use this information for protein engineering and design of therapeutic compounds. We use a multidisciplinary approach, which includes advanced...
Website: Poler Research Group
Studies of supramolecular systems “mechanically wrapping” about nanotubes, nanoparticles, and quantum dots. Elucidating energy and charge transfer mechanisms. Manufacturing nanomachines, nanosensors, nanotransducers and nanoparticle based composites for energy storage applications.
Most of our research interests are toward the fundamental studies of complex systems at the nanoscale with regard to applications of materials at the macroscale. The Poler...
Website: The DR Group
Synthetic and structural inorganic, bioinorganic and organometallic chemistry; ligand design; preparation of synthetic analogues of copper proteins having antibacterial properties.
Synthetic and structural inorganic, bioinorganic and organometallic chemistry, including: (i) poly(pyrazolyl)silane chemistry, (ii) coordination chemistry with multidentate sulfur-donor ligands, including polythioethers and poly(mercaptoimidazolyl)borates, (iii) synthesis of...
Website: Schmedake Research Group
Synthesis of novel silicon containing compounds and materials, especially compounds or complexes in which silicon is used as a substitute for a carbon atom or a transition metal. Specific focus areas include redox-active hexacoordinate silicon complexes, silicon heterocycles, and silicon-based conducting polymers.
Our research group is interested in the development of silicon containing compounds and materials, especially compounds or complexes...
Website: Stokes Research Group
Nanoscale materials for use in semiconductor optoelectronic devices such as light emitting diodes and solar cells. Materials are formed through traditional epitaxial growth (e.g. MOCVD), or through deposition of colloidal semiconductor quantum dots from solution.
Website: Troutman Research Group
Bacterial sugar polymer biosynthesis; functional studies of membrane bound proteins; development of probes to study biological systems.
We utilize techniques in molecular biology, biochemistry, enzymology and organic synthesis to develop bioactive materials and understand the natural pathways responsible for them.
Website: V-Lab Group
Design and synthesis of novel hybrid inorganic-organic materials for a wide variety of applications, predominantly in biomedicine, renewable energy, and catalysis.
Our vision is that by combining basic science understanding with material science, some of the most relevant problems (cancer and other diseases, energy, and environmental issues) of our time will be addressed. In particular, we will focus our initial efforts toward developing nanoparticle-...
Website: Walter Research Group
Synthesis and integration of organic conjugated polymers and dye molecules for solar energy conversion applications.
Our work involves applications related to photocatalysis, materials for photovoltaic or solar fuel applications. Our work spans materials research, organic synthesis, hybrid organic/inorganic systems, and nanoscience. We are particularly interested in enhancing the light harvesting and energy (exciton) transfer mechanisms found in porphyrin thin...
Website: Wei Group
Processing and mechanical properties over a wide spectrum of loading conditions and length scales of nanostructured materials. Size effect of mechanical properties of various materials including crystalline metals, bulk metallic glasses. Constitutive behavior of natural and man-made nanocomposites. Dynamic properties of materials.
Website: Weller Research Group
How structure affects function of nucleic acids, both biologically and in the performance of high-throughput assays, which are produced in genomics experiments and used by bioinformaticians as the basis for most network inference studies
Investigation into the design, generation, and analysis of gene expression data from high-throughput platforms. Specifically we are interested in understanding and controlling sources of technical variation in the data by...
Website: Xu Group
Synthesis of novel low-dimensional nanomaterials and exploration of their unique properties.
The Xu Group is interested in synthesizing one-dimensional (1D) nanomaterials with a focus on boron-based materials, studying mechanical properties of individual 1D nanostructures, exploring thermoelectric properties of boron-based 1D nanostructures, and developing functional nanocomposities.
Website: Zhang Group
Synthesis and characterization of thin films and nanostructures of functional materials; Electrical and optical measurements; Device fabrication for electronic and photonic applications.
Our research objective is to study functional materials in forms of thin films and nanostructures for electronic and photonic applications, ranging from material synthesis and characterization, property measurement, to device fabrication. The research work is currently focused on metal...
Website: Zhang Research Group
Novel materials (nanostructures, alloys, inorganic-organic hybrids) and device architectures for energy and related applications (photovoltaics, solid-state-lighting, photo-detector); Fundamental sciences in solid state physics and electrical engineering; Optical spectroscopy; Large scale first-principles and empirical electronic structure modeling.