Electrical conduction property of solid iodine in the molecular phase Shimizu Group Yu TANAKA.

Slides:

Advertisements

Similar presentations

M1 colloquium Shimizu-group M1 Daiki Hayashi Possibility of metallic phase and three-dimensional conductance of graphite.

Advertisements

M1 colloquium Shimizu-group M1 Daiki Hayashi Property of PAH(polycyclic aromatic hydrocarbon) under pressure G. A. Samara and H. G. Drickamer, J. Chem.

Pressure-Induced Polymerization of Dehydro[24]annulenes Derivative Shimizu-group M1 NAKASE Tomoya 1.

The crystal structure of witherite BaCo 3 was studied using powder X-Ray diffraction through a Merrill-Bassett diamond anvil cell to high pressures up.

Acknowledgements: Our research is sponsored by DFG SPP planet magnetisms project G1712 7/1. Special thanks are given to Prof. Dr. Wolfgang. Schmahl and.

Pressure-Induced Hydrogen-dominant metallic state in Aluminum Hydride HAGIHARA Toshiya Shimizu-group Igor Goncharenko et al., Phy. Rev. Lett. 100,

Nonmetals Section 20.2 and Nonmetals Nonmetals- gases or brittle solids at room temperature. Nonmetals- gases or brittle solids at room temperature.

1 Raman spectra and X-ray diffraction of Boron Triiodide at high pressure SHIMIZU Group ONODA Suzue Ref: A. Anderson and L. Lettress J. Raman Spectrosc.

Pressure-Induced Polymerization of 24NHBn(Dehydro[24]annulenes) Shimizu-group M1 NAKASE Tomoya 1.

Specific heat Blue=olivine, green=MgO, orange=forsterite, black=Al2O3, brown=grossular, purple=pyrope, red=CaO.

Search for high temperature superconductivity of Sr 2 VO 4 under high pressure Shimizu Lab Kaide Naohiro.

Synthesis and characterisation of thin film MAX phase alloys Mathew Guenette, Mark Tucker, Yongbai Yin, Marcela Bilek, David McKenzie Applied and Plasma.

Chapter 10 Liquids & Solids

Shimizu-lab M-1 Kubota Kazuhisa

What are the key ingredients for a successful laser heating experiment at the synchrotron? Guoyin Shen CARS, University of Chicago GeoSoilEnviroCARS The.

Investigation of fluid- fluid phase transition of hydrogen under high pressure and high temperature 2014/11/26 Shimizu laboratory SHO Kawaguchi.

M1 Colloquium Presentation Arora Varun 29A13106 (Shimizu Lab) High Pressure Study of Na x TiNCl and CeFe 2.

Hydrogen at Ultra High Pressure Isaac F

M1 Colloquium Presentation Arora Varun 29A13106 (Shimizu Lab) Superconductivity in MNX type compounds ( TiNCl ) Superconducting Nitride Halides (MNX),

Pressure effect on electrical conductivity of Mott insulator “Ba 2 IrO 4 ” Shimizu lab. ORII Daisuke 1.

Fabrication of oxide nanostructure using Sidewall Growth 田中研 M1 尾野篤志.

Yoshida Laboratory Yuya Yamada （山田裕也） 1 Theoretical prediction of structures and properties of simple materials under high pressure ( 高圧下における単純物質の構造と物性の理論的予測.

Calorimetric Investigation under High Pressure Shimizu-Group M1 Shigeki TANAKA F. Bouquet et al., Solid State Communications 113 (2000)

Switching of Magnetic Ordering in CeRhIn 5 under Hydrostatic Pressure Kitaoka Laboratory Kazuhiro Nishimoto N. Aso et al., Phys. Rev. B 78, (2009).

Measurement of nano-scale physical characteristics in VO 2 nano-wires by using Scanning Probe Microscope (SPM) Tanaka lab. Kotaro Sakai a VO 2 nano-wire.

High Pressure Studies of Titanium Hydride Up to 50 GPa with Synchrotron X-ray Diffraction Greg Harding 1, Patricia Kalita 2, Stanislav Sinogeikin 3, Andrew.

Pressure effect on the superconductivity of HgBa 2 Ca 2 Cu 3 O 8+  Shimizu Lab. M1 KAMADA Yukihiro.

H. Giefers, University of Paderborn Introduction XAFS 12 in Malmö 24. June 2003 High-pressure EXAFS and XRD investigation of unit cell parameters of SnO.

Search for superconductivity in CrB 2 under pressure 29A13025 Shimizu Lab Kaide Naohiro.

Theoretical prediction of structures and properties of lithium under high pressure ( 高圧下におけるリチウムの構造と物性の理論的予測 ) Yoshida Laboratory Yuya Yamada （山田裕也）

Dylan D. Wood and Ravhi S. Kumar* Department of Physics and Astronomy, Vanderbilt University, Nashville, TN *HiPSEC and Department of Physics and.

The Nb 5 Si 3 sample was prepared by Dr. Ravhi Kumar at the University of Nevada, Las Vegas. A stainless steel gasket with a 130 μm centered circular hole.

Shimizu Lab. M1 Takuya Yamauchi

Laser Assisted High Pressure Phase Transformation in SiC

High Pressure study of Bromine Shimizu Lab M2 Hayashi Yuma.

High Pressure study of Bromine

Phase diagram of solid oxygen at low temperature and high pressure

Nanoscale imaging and control of resistance switching in VO 2 at room temperature Jeehoon Kim, Changhyun Ko, Alex Frenzel, Shriram Ramanathan, and Jennifer.

1 SHIMIZU Group ONODA Suzue Metallization and molecular dissociation of SnI 4 under pressure Ref: A.L. Chen, P.Y. Yu, M.P. Pasternak, Phys. Rev. B. 44,

Superconductivity in HgBa 2 Ca m-1 Cu m O 2m+2+δ (m=1,2, and 3) under quasihydrostatic pressures L. Gao et al., Phys. Rev. B 50, 4260 (1994) C. Ambrosch-Draxl.

Conductivity Lab.

TOPIC D: BONDING AND THE PROPERTIES OF SOLIDS. An alloy is a mixture of metals. Two types are common: 1. An interstitial alloy – additional, smaller atoms.

Structure of Solids Chapter 11 Part III.

Chap 10 Liquids & Solids. Key terms Molecules – atoms joined by covalent bonds (molecular compounds) Condensed states – solid and liquid Intramolecular.

Structural Determination of Solid SiH 4 at High Pressure Russell J. Hemley (Carnegie Institution of Washington) DMR The hydrogen-rich solids are.

Chapter 6 Solid-State Chemistry. Problems n n 6.9, 6.13, 6.14.

Pressure Dependence of Superconductivity of Iron Chalcogenides

High pressure study on superconductor K x Fe 2-y Se 2 M1 Hidenori Fujita Shimizu group.

Chapter 3.7 Pages 64 – 70. Learning outcomes State the energy changes that occur when solids melt and liquids vaporise Explain the values of enthalpy.

High pressure phase diagram of Beryllium Phys.Rev.B 86,174118(2012) Shimizu Lab. Takuya Yamauchi.

NMR measurement using diamond anvil cell 7/6 Shimizu-Lab M1 Masuda Akiyoshi 1.

Question on Van der Waals Interactions

Materials Engineering

Macromolecular / giant covalent Molecular / simple covalent

Macromolecular / giant covalent Molecular / simple covalent

Chem. warm-up: What is the difference between an ionic and covalent compounds? Ionic compounds are made of ions (Cations & Anions) and transfer electrons,

COVALENT BONDING -formed from the sharing of pairs of electrons between atoms of non-metallic elements - Sharing of electrons occurred to satisfy the octet.

25th International Conference on Low Temperature Physics

Bellringer 3-17 What property makes metals good electrical conductors?

Do Now & Announcements Turn in lab from last week if you did not do so last class Work on “Vapor Pressure Review”

Bell Ringer: On the blank side of a notecard create A,B,C,D sides

The Phase Diagram of FeO

2019/4/16 Search for liquid-metallic hydrogen under high temperature and high pressure Shimizu group M1 SHO Kawaguchi V. Dzyabura et al. PNAS, 110, 20,

Nonmetals Chapter 19.2.

Meeting 1, Tuesday, Jan. 8, 2019 Goals for this Meeting:

Pressure generation of toroidal anvil cell for physical property investigation under ultra-high pressure 2019/5/29 Shimizu Lab Kara Yusuke.

Solids: Bonding and Structure

CfE Higher Chemistry Unit 1 Chemical Changes and Structure

Presentation transcript:

Electrical conduction property of solid iodine in the molecular phase Shimizu Group Yu TANAKA

Contents ・ Introduction - pressure effect - structure of molecular crystal I 2 - previous work ・ Experiment ・ Results and Discussions ・ Summary

pressurization monatomic metal molecular dissociation ( 分子解離 ) Pressure effect ― diatomic molecular crystal ― Molecule Insulator covalent bond

Crystal structure of I 2 at ambient temperature and pressure orthorhombic crystal (space group ： Cmca) Insulator Molecules are layered to a-axis and form crystal. B. Albert, K. Schmit, Z. Anorg. Allg. Chem. 627, 809 (2001). diatomic molecule ( 二原子分子 )

mesophase (Phase Ⅴ ) Crystal structure Molecular (phase Ⅰ )monatomic (Phase Ⅱ ) (bct) 0 Pressure [GPa] Measure by X-ray diffraction. molecule pressurization monatomic molecular dissociation ( 分子解離 ) Crystal structure of iodine under pressure

The distribution of atomic distance coordination number atomic distance ( Å ) molecular Phase Ⅰ mesophase Phase Ⅴ monatomic Phase Ⅱ Atomic distance is continuously distributed in mesophase. K. Takemura, K. Sato, H. Fujihisa and M. Onoda, Nature 423, 971 (2003).

Previous work (Temperature dependence of electrical resistance) K. Shimizu, N. Tamitani, N. Takeshita, M, Ishizuka, K. Amaya and S Endo, J. Phys.Soc. Jpn. 61, 3853 (1992). N. Sakai, K. Takemura and K. Tsuji, J. Phys.Soc. Jpn. 51, 1811 (1982). Under pressure, iodine becomes metal and superconductor.

mesophase (Phase Ⅴ ) 0 Pressure [GPa] K. Shimizu et al., J. Phys. Soc. Jpn., 61, 3853 (1992). Crystal structure Molecular (phase Ⅰ ) monatomic (Phase Ⅱ ) (fcc) insulator metal Electrical conduction property superconductor Not clear ! Pressure phase diagram

Experiment for high pressure Setting Diamond Anvil Electrode Pt Deposited Electrode Ti + Pt Sample Insulator Almina Gasket SUS310 S ● [Side View] [Top View] Sample Electrical resistance measurement 4 probe method Pressure determination ruby-fluorescence Pressure cell Diamond Anvil Cell (DAC) 300 μm 50 μm 100 μm

Experiment for low temperature Pulse tube refrigerator Imaging plate X-ray DAC We can measure electrical resistance and X-ray diffraction at the same time under low temperature and high pressure. Little vibration Gas-pressure cable

In phase Ⅴ Metallization in phase Ⅴ Phase Ⅴ Metal ! 6 K 100 K 200 K 300 K Intensity (arb.units)

Pressure boundary of phase Ⅰ and phase Ⅴ Phase Ⅴ We can see the peaks of only phase Ⅰ from 10 GPa to 20 GPa. We can see the peaks of both of phase Ⅰ and phase Ⅴ at 28~29 GPa. XRD at room temperature Phase Ⅰ

15 GPa 20 GPa At 15 GPa and 20 GPa, I 2 is metal. Temperature dependence of electrical resistance Metallization in phase Ⅰ XRD at each temperature

Summary Metallization in phase Ⅰ and phase Ⅴ. Molecular crystal I 2 become metal not because the structure transition. mesophase (Phase Ⅴ ) 0Pressure [GPa] K. Shimizu et al., J. Phys. Soc. Jpn., 61, 3853 (1992). Crystal structure molecular (phase Ⅰ ) monatomic (phase Ⅱ ) (bct) Electrical conduction property insulatormetal 15 superconductor