The band structure shows that the system is metallic.

Slides:

Advertisements

Similar presentations

1 Destabilization of Mg-based hydrogen storage materials: literature review (Dr. Liudas Pranevicius)

Advertisements

Hydrogen Storage in LiBH 4 -MgH 2 -Al Bjarne R. S. Hansen a, Dorthe B. Ravnsbæk a, Jørgen Skibsted b, Carsten Gundlach c & Torben R. Jensen a a Center.

Superconductors 2. Resistance falls to zero at the critical temperature 1. Electrical resistance falls as temperature increases 4. Superconductors repel.

Hydrogen Storage in Ti-doped NaAlH4 William Gempel.

An Introduction to Graphene Electronic Structure

10.1 Intermolecular Forces 10.2 The Liquid State 10.3 An Introduction to Structures and Types of Solids 10.4 Structure and Bonding in Metals 10.5 Carbon.

Factors affecting metallic bond strength Metallic crystal structures

Electron Deficient Molecules Boron Hydrides Edward A. Mottel Department of Chemistry Rose-Hulman Institute of Technology.

Chemistry in Extreme Environments Chris Bennett, Xibin Gu, Brant Jones, Pavlo Maksyutenko, Fangtong Zhang, Ralf I. Kaiser Department of Chemistry, University.

Superconductivity of MgB2 Zhiping Yin Mar. 14, 2007 Final project of Advanced electronic structure course PHY250-6.

Electron Deficient Molecules Boron Hydrides Edward A. Mottel Department of Chemistry Rose-Hulman Institute of Technology.

Chapter 10 Liquids and Solids. Chapter 10 Table of Contents Copyright © Cengage Learning. All rights reserved Intermolecular Forces 10.2 The Liquid.

Chemical bonding Chapters 7 and 8. Valence Electrons Elements with similar chemical behavior have the same number of valence electrons. For the representative.

Yoon kichul Department of Mechanical Engineering Seoul National University Multi-scale Heat Conduction.

Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 Section 10.5 CARBON & SILICON: NETWORK ATOMIC SOLIDS NETWORK SOLIDS: SOLIDS CONTAINING.

Adsorption and Reaction of ortho-Carborane on Pt(111) David Siap August 3, 2006 REU Program Advisors: Professor Trenary Aashani Tillekaratne University.

Coherent Carbon Cryogel – Hydride Nanocomposites for Efficient Hydrogen Storage Guozhong Cao, University of Washington, DMR Solid state hydrogen.

Lecture 7.2 ChemFET Sensors. Bipolar Transistor Combination of two back-to-back p-n junctions P-N-P or N-P-N.

Hydrogen Storage in Nano-Porous Materials The University of Oklahoma School of Chemical, Biological, and Materials Engineering Dimitrios Argyris.

ELECTRON AND PHONON TRANSPORT The Hall Effect General Classification of Solids Crystal Structures Electron band Structures Phonon Dispersion and Scattering.

Atoms and Elements By Jose Andres Hernandez- Godoy and Mr. Lin.

Raman Enhancement Effect on Two-dimensional Layered Materials: Graphene, h-BN, and MoS 2 Mildred Dresselhaus, Massachusetts Institute of Technology, DMR.

Electronics Principles & Applications Fifth Edition Chapter 2 Semiconductors ©1999 Glencoe/McGraw-Hill Charles A. Schuler.

Interactions of Quasiparticles

Chapter 10 Liquids and Solids. Section 10.1 Intermolecular Forces Copyright © Cengage Learning. All rights reserved 2 Intramolecular Bonding  “Within”

Which of the following refer to the basic categories associated with the energy of a single molecule in a gaseous phase?

Slide # 1 Hydrogenic model of doping impurities The simple model for a hydrogen atom can be used to describe the behavior of an impurity in a semiconductor.

1 ME 381R Lecture 13: Semiconductors Dr. Li Shi Department of Mechanical Engineering The University of Texas at Austin Austin, TX

Atoms chemically bond in an attempt to feel stable like noble gases. They do this by either filling their valence shells or getting rid of the electrons.

MOS capacitor before joining The metallic gate may be replaced with a heavily doped p+ polysilicon gate. The Fermi energy levels are approximately at.

Intermolecular Forces Intermolecular Forces Covalent bonds exist between atoms within a molecular compound These covalent bonds.

Conclusion By using the first principles calculations, the hydrogen storage on graphyne have been studied. Hydrogen gravimetric capacity would be up to.

Low-Dimensional Carbon Based Systems: First-principles Studies

Lecture 4 Ionic and Covalent bonds

Predicting the Superconducting Transition Temperature for LiBC

ELECTRONIC DEVICES AND CIRCUITS ( )

Review of solid state physics

P- type Si Homojunction Interfacial Workfunction Internal Photoemission Dual-Band Detector Responding in Near- and Far-Infrared Regions G. Ariyawansa.

BONDING, STRUCTURES & PROPERTIES

Nuggets on Background Physics

Molecular Mechanism of Hydrogen-Formation in Fe-Only Hydrogenases

Introduction to Semiconductor Material and Devices.

Introduction to Solid-state Physics Lecture 2

Novel Organic-Inorganic Hybrid Cage Architectures

Polar Bonds & Molecules

Network Solids To play movie you must be in Slide Show Mode

Transport property of the iodine doped

Lecture #8 OUTLINE Generation and recombination

Chemical Bonds.

A brief review of Lewis Acids and Bases

Solids Amorphous Solids: Disorder in the structures Glass

Fermi surface, pseudogap and superconductivity in the t-J model

Network Solids To play movie you must be in Slide Show Mode

A brief review of Lewis Acids and Bases

Ultrafast Proton Dynamics During Proton-Coupled-Electron-Transfer and Excited-State-Proton-Transfer Andrei Tokmakoff, Department of Chemistry, Massachusetts.

Covalent Properties Main Concept:

A brief review of Lewis Acids and Bases

Intramolecular Bonding

Semiconductor crystals

Solid state (Calculations & Doping)

A brief review of Lewis Acids and Bases

Polar Bonds and Molecules

Metastability of the boron-vacancy complex (C center) in silicon: A hybrid functional study Cecil Ouma and Walter Meyer Department of Physics, University.

Solid state (Calculations & Doping)

Boron: Group 3A Boron Hydrides: BxHy Simplest is “diborane” B2H6

5-ish Slides About Bridging Hydrides and [Cr(CO)5HCr(CO)5]-1

Electronic Conductivity in Solids

Covalent Bonding & Intermolecular Forces

The Conductivity of Doped Semiconductors

Presentation transcript:

The band structure shows that the system is metallic. Prediction of A Multi-center bonded Solid Boron Hydride for Hydrogen Storage Peihong Zhang, Department of Physics, University at Buffalo A novel layered solid boron hydride structure (B2H2) consisting of hexagonal boron network and bridge hydrogen which has a gravimetric capacity of 8 wt% hydrogen is predicted. The absence of soft phonon modes confirms the dynamical stability of the proposed structure. Charging the structure significantly softens hydrogen related phonon modes. Boron modes are either hardened or not significantly affected by electron doping. These results suggest a charging assisted hydrogen release mechanism. Stabilized by e- donors - H as in the case of diborane Hexagonal B layer is not stable due to e- deficiency B2H2 B-phonon modes H Phonon modes Band Structure Phonon Dispersion The band structure shows that the system is metallic. How do we do the doping? The Fermi surface consists of a p- derived hole pocket and a p- derived electron pockets. -Li intercalation - B self doping No soft modes is found in the phonon dispersion, showing a dynamical stability of B2H2 structure.