Charge Transfer and Charge Transport in Nanofibers of

Slides:

Advertisements

Similar presentations

Nature provides us of many examples of self- assembled materials, from soft and flexible cell- membranes to hard sea shells. Such materials.

Advertisements

 M OTIVATION C ONTROL OF AGGREGATES IN POLY (3- HEXYLTHIOPHENE ) SOLUTIONS AND THIN FILMS Recent research has shown that the charge carrier mobility in.

Hybrid High-Strength Carbon-Fiber/Epoxy Composites Reinforced with Self-Healing Nanofibers at Interfaces (ND NASA EPSCoR Seed Grant $28,610, 4/16/2011-4/15/2012)

Spectroscopy is the study of interactions between light and matter. Photoinduced absorption spectroscopy can show us which materials (such as quantum dots)

1 Air Force Research Laboratory Dr. Michael F. Durstock, , Device Architectures.. Aluminum ITO Glass V Electron.

無機化學特論(四) 授課老師：林寬鋸教授

Organic Solar Cells Elizabeth Thomsen. Organic Semiconductors Artist’s impression! Semi Conductor Organic.

Organic Semiconductors: Electronic Properties and Optoelectronic Applications Hsiang-Han Tseng.

Amino acid interactions with varying geometry gold nanoparticles Hailey Cramer Mentored by Dr. Shashi Karna To develop the potential biomedical applications.

Polymers in Solar Cells Joshua Hufford Joshua Hufford Bryan Orellana Bryan Orellana Yunchao Li Yunchao Li McKay Barnett McKay Barnett Sameh Mehrez Sameh.

© Imperial College London 1 Photovoltaics: Research at Imperial College Jenny Nelson Department of Physics Imperial College London Grantham Climate Change.

Reduced Lasing Threshold of Semiconducting Polymers via Alignment in Mesoporous Silica (DMR ) Semiconducting polymers are under intense investigation.

Photochemistry And Photophysics Of Nanoparticles Brian Ellis.

NanotechnologyNanoscience Modeling and Simulation Develop models of nanomaterials processing and predict bulk properties of materials that contain nanomaterials.

Ch.4: Polymer Solar Cells: Photoinduced Charge Transfer ▪ Photoinduced Electron Transfer between Conjugated Polymer and Fullerene N. S. Sariciftci & A.

Photophysical Properties of CdSe/ZnS Quantum Dots Embedded in Polymer Films and Solubilized in Toluene Final Presentation Jamie Golden CHEM /30/10.

Supervisor: Prof N. Manyala

Synthesis of metallic Ag and semiconducting ZnS nanoparticles in self-assembled polyelectrolyte templates M.Logar, B.Jančar and D.Suvorov Institute Jožef.

Increased surface area on nanoparticles

The Hot Charge Transfer (CT) Exciton Mechanism in Organic Photovoltaics Xiaoyang Zhu, University of Minnesota-Twin Cities, DMR A charge transfer.

Synthesis Rutile titania nanofibers are synthesized using electrospinning and sol-gel coating techniques. A large sheet of nylon-6 nanofibers are synthesized.

Katarzyna Polska, Stanisław Radzki Department of Inorganic Chemistry, Maria Curie-Skłodowska University Pl. M. C. Skłodowskiej 2, Lublin, Poland.

Institute of Atmospheric Sciences South Dakota School of Mines and Technology A Cloud Physics Facility for DUSEL John Helsdon South Dakota School of Mines.

One of our recent research efforts focuses on the synthesis of Mg x Zn 1-x O nanoalloys and on studies concerning their optical and material properties.

Reporter : Chang-Fu Lain Professor: Cheng-Ho Chen Date : 6/11.

Figure 3. SEM images of electrospun microfiberous scaffolds : (A) random PCL scaffold and (B) highly aligned PCL scaffold. Analysis of orientation with.

UNM / Harvard PREM Seed Project Influence of Active Materials on Cellular Functions Juila E. Fulghum, University of New Mexico, DMR Research Goal:

Semi-conducting organic polymers and Inorganic semiconductor nano-crystals Nir Tessler EE Dept. Technion.

Materials World Network: Understanding & controlling optical excitations in individual hybrid nanostructures Gregory J. Salamo, University of Arkansas,

Real-Time Polarized Raman Spectroscopy of an Electrospun Polymer Nanofiber John F. Rabolt, University of Delaware, DMR Shown in Figure 1 is the.

NANOFIBERS FOR APPLICATIONS IN MEMS, NANOTECHNOLOGY, BIOTECHNOLOGY AND MEDICINE.

By: Dan Tamayo.  Electrospun Nanofibers are polymer solutions that are pumped through a syringe  They form an ultrafine fiber that are layered on top.

The use of polymer layers in light emitting devices has many applications in flexible devices and electronics, and relies on the ability of these polymers.

Christian E. Mejia, Christoph F. Weise, Steve Greenbaum, Hunter College Dept. of Physics and Astronomy Shane E. Harton, Columbia University Dept. of Chemical.

Electrospinning: the technique

Conjugated Polyelectrolytes for Optoelectronic Applications Guillermo C. Bazan, University of California-Santa Barbara, DMR Conjugated polyelectrolytes.

15 th Physical Chemistry Conference Introduction Introduction In recent years composites reinforced with nanoparticles have caught the attention of many.

Aggregation-induced enhanced emission (AIEE) Myounghee Lee

“Ultrafast Nanoscopy of Energy and Charge Transport”

Organic Solar Cells: The Technology and the Future

O Futuro é Orgânico? O Papel dos Polímeros Condutores no Desenvolvimento de Materiais Solares Fotovoltaicos Palmira F. Silva Centro de Química Estrutural.

Date of download: 10/19/2017 Copyright © ASME. All rights reserved.

Impact of Clay Nanoparticles on Structure and Relaxation of a Polar Polymer Peggy Cebe, Department of Physics and Astronomy Tufts University, Medford,

Synthesis and Characterization of ZnO-CdS Core-Shell Nanohybrids by Thermal Decomposition Method and Studies on Their Charge Transfer Characteristics Rama.

Computer Simulations of Polymers For Materials and Energy Applications

Surface Enhanced Fluorescence in Polymer Semiconductors Sue A

CSIR - Central Leather Research Institute Chennai ,Tamil Nadu, India

Synthesis Results Future Work Conclusions

Synthesis and Characterization of Novel Donor/Acceptor Molecules

Core-Shell Heterostructures for Photovoltaic Energy Conversion Igor Vasiliev, Department of Physics, New Mexico State University, Las Cruces, NM

Ordered Hybrid Polymer-Nanorod Composites for Renewable Energy

Ordered Hybrid Polymer-Nanorod Composites for Renewable Energy

Dept. of Materials Sci. and Eng. Tel:

Light-Harvesting Action Spectroscopy of Single Conjugated

Nickel-Catalyzed Polymerizations: Mechanistic Studies & New Reaction Development Anne J. McNeil Department of Chemistry and Macromolecular Science and.

Disruption of Metal-Metal Interactions and Extended Linear Chains by Organic Solvent Molecules Zerihun Assefa, Department of Chemistry, North Carolina.

Structure Engineering of Side Chain Perylene Tetracarboxylic Diimide Diblock Copolymers Shi Jin, Department of Chemistry, College of Staten Island, the.

Investigation of Structure and Dynamics in

Chemistry The study of: the composition (make-up) of matter

Electropolymerizable Dendrons in Reversible Addition Fragmentation Chain-Transfer (RAFT) Polymerizations: Electrochemical Behavior and Macromolecular Assemblies.

The Ohio State University, Department of Chemistry, Columbus, OH 43210

Dynamics of Energy Transfer in Cylindrical Molecular Aggregates

Synthesis and Characterization of Novel Donor/Acceptor

Interaction and energy transfer between single wall carbon nanotubes and a straight chain conjugated polymer in solution Christopher J. Collison, Department.

Dynamics of Energy Transfer in Cylindrical Molecular Aggregates

Organic Solar Cells: The Technology and the Future

Counterion Condensation and Collapse of Polyelectrolyte Chains

Exciton Polariton Waveguide in ZnO Nanorod

Patterned NanoFibers and Composites Julie Chen, Mechanical Engineering

Interaction and energy transfer between single wall carbon nanotubes and a straight chain conjugated polymer in solution Christopher J. Collison, Department.

Presentation transcript:

Charge Transfer and Charge Transport in Nanofibers of Conjugated Polymer and ZnO Nanoparticles Zhengtao Zhu, Department of Chemistry, South Dakota School of Mines and Technology Hybrid organic semiconductor/inorganic nanomaterials are of great interest not only as potential materials for applications in high efficient energy conversion but also as model systems for studies of the fundamental physical properties and interactions at the nanometer scale. In recent years, progresses have been made in understanding the mechanism of photoinduced charge transfer process and the effect of the morphology and the structures of the inorganic nanomaterials on the charge transfer properties. However, the effects of polymer chain conformation and order/disorder in the nanocomposites on the exciton formation and dissociation, charge transfer, and charge transport properties have not been well addressed. Our work aims at investigating the optical and charge transport properties of nanocomposite of conjugated polymer and ZnO nanoparticles prepared through electrospinning process in order to elucidate the effects of morphology, polymer chain conformation, and confinement on the physical properties of the electrospun nanocomposite materials. We have successfully studied the fluorescence emission spectra of electronspun MEH-PPV/PEO nanofibers with differing MEH-PPV/PEO compositions. A typical fluorescence microscope image and fluorescence spectrum of these nanofibers is on the right. The notable outcomes of the these studies include: Successfully preparation of MEH-PPV nanofibers by electrospinning process. Evidence of less aggregation of the MEH-PPV polymer chains in electrospun fibers. No polarization dependence of fluorescence in a single nanofiber observed with confocal fluorescence microscope. Our next goal will be to incorporate ZnO nanoparticles in the electrospun conjugated polymer nanofiber and to study the charge transfer process in the composite fibers. Typical MEH-PPV nanofibers (Fluorescence image)