Presentation is loading. Please wait.

Presentation is loading. Please wait.

Pushing the limits of IR …an update of new possibilities in CLS spectroscopy Ferenc Borondics CAP Meeting 2011, St. John’s, NL.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Pushing the limits of IR …an update of new possibilities in CLS spectroscopy Ferenc Borondics CAP Meeting 2011, St. John’s, NL."— Presentation transcript:

1 Pushing the limits of IR …an update of new possibilities in CLS spectroscopy Ferenc Borondics CAP Meeting 2011, St. John’s, NL

2 “ The Canadian Light Source Location, location, location... “

3 The Mid IR beamline

4 SourceBending Magnet Energy range~200 – 8000 cm -1 (0.025 – 1 eV) Resolution~0.1 – 16 cm -1 Spot sizeDiffraction limited

5 Synchrotron advantage for Mid IR Globar (black body) Synchrotron

6 Microscopy… X-ray microscope Big objective Oil immersion objective NA = 0.65

7 Diffraction limited resolution. Not possible with regular sources. 2.46  m 3000 cm -1 2000 cm -1 1500 cm -1 2000 cm -1 Synchrotron RadiationGlobar Visible

8 Microscopy SR FPA imaging Reflection setup Time resolved measurements 4ns time resolution, Step/Scan bench Transmission Reflection Grazing Incidence ATR 64x64 element FPA, Hyperion 3000 Micro-PAS Low temperature …recent developments PEM for polarization NIR detection

9 Microscopy…plans for the future FIR microscopy extension – bolometer attachment In situ pressure measurement for high-pressure experiments Breaking the diffraction limit

10 Microscopy…plans for the future New beamline

11 Users – various fields Usage: 68% oversubscribed Biology: seeds, tissue sections, plant sciences, paleontology, environmental science 60% Chemistry: electrochemistry, fundamental food science, diamonds 15% Physics: solid state physics, geophysics, high-pressure superconductivity 15%

12 CE WE RE Flow Through Holes Kinetics: decrease RC time constant Small electrode size Need for SR Rosendahl SM; Borondics F; May T; Pedersen T; Burgess I, Anal. Chem. 83 (10), 3632-3639, 2011.

13 potentiostat Apply E rest DAQ Computer FTIR Microscope e-chem cell Apply E ref Get ready… Let’s roll! Apply E step Spectra Direct detector signal E cell /I Rosendahl SM; Borondics F; May T; Pedersen T; Burgess I, Anal. Chem. 83 (10), 3632-3639, 2011.

14 Results Fe(CN) 6 4- = Fe(CN) 6 3- + e- Fe(CN) 6 4- Fe(CN) 6 3- loss creation Rosendahl SM; Borondics F; May T; Pedersen T; Burgess I, Anal. Chem. 83 (10), 3632-3639, 2011.

15 http://www.physics.utoronto.ca/~kburch/ 20  m 42nm 160nm 110nm 100nm 10  m 20  m 13nm L.J. Sandilands et al., PRB 82, 064503 (2010) Bi 2 Sr 2 Ca 1-x Dy x Cu 2 O 8+δ x=0.3,0.4 Exfoliated superconductors Topological insulators

16 NbSe 2 Bi-2212MoS 2 Graphene 1m1m Exfoliation (Scotch tape-ing)

17 …another example (ALS)

18 Bilayer graphene

19

20 Thank you! Ferenc Borondics Mid IR beamline Canadian Light Source http://midir.lightsource.ca

Download ppt "Pushing the limits of IR …an update of new possibilities in CLS spectroscopy Ferenc Borondics CAP Meeting 2011, St. John’s, NL."

Similar presentations

DSM Research Research Analytical Services P. Meijers Polymer troubleshooting and QC with FTIR DSM Research, CT&A - Analytical Services December 2002 Peter.

DSM Research Research Analytical Services P. Meijers Polymer troubleshooting and QC with FTIR DSM Research, CT&A - Analytical Services December 2002 Peter.
Chem. 133 – 2/19 Lecture. Announcements Lab Work –Turn in Electronics Lab –Starting Set 2 HW1.2 Due Today Quiz 2 Today Today’s Lecture –Noise –Electrochemistry.

Chem. 133 – 2/19 Lecture. Announcements Lab Work –Turn in Electronics Lab –Starting Set 2 HW1.2 Due Today Quiz 2 Today Today’s Lecture –Noise –Electrochemistry.
Transmission Electron Microscopy (TEM)

Transmission Electron Microscopy (TEM)
STM/S Imaging Studies in the Vortex State Anjan K. Gupta Physics Department, IIT, Kanpur (Tutorial, IVW10 at TIFR)

STM/S Imaging Studies in the Vortex State Anjan K. Gupta Physics Department, IIT, Kanpur (Tutorial, IVW10 at TIFR)
Anandh Subramaniam & Kantesh Balani

Anandh Subramaniam & Kantesh Balani
1 Extreme Ultraviolet Polarimetry Utilizing Laser-Generated High- Order Harmonics N. Brimhall, M. Turner, N. Herrick, D. Allred, R. S. Turley, M. Ware,

1 Extreme Ultraviolet Polarimetry Utilizing Laser-Generated High- Order Harmonics N. Brimhall, M. Turner, N. Herrick, D. Allred, R. S. Turley, M. Ware,
X-ray Astronomy Lee Yacobi Selected Topics in Astrophysics July 9.

X-ray Astronomy Lee Yacobi Selected Topics in Astrophysics July 9.
Short pulses in optical microscopy Ivan Scheblykin, Chemical Physics, LU Outline: Introduction to traditional optical microscopy based on single photon.

Short pulses in optical microscopy Ivan Scheblykin, Chemical Physics, LU Outline: Introduction to traditional optical microscopy based on single photon.
STXM Cat Graves Stöhr Group SASS Talk 09/30/09.

STXM Cat Graves Stöhr Group SASS Talk 09/30/09.
Light Source: Globar Silicon Carbide Rod (5mm diameter, 50 mm long) Heated electrically to 1300 – 1500 K Positive temperature coefficient of resistance.

Light Source: Globar Silicon Carbide Rod (5mm diameter, 50 mm long) Heated electrically to 1300 – 1500 K Positive temperature coefficient of resistance.
Emily Sonnex Identification of forged Bank of England £20 banknotes using IR spectroscopy

Emily Sonnex Identification of forged Bank of England £20 banknotes using IR spectroscopy
Ψ-k workshop on magnetism in complex systems, 16 th – 19 th April 2009, TU WienM. Stöger-Pollach Detection of magnetic properties on the nanometer scale.

Ψ-k workshop on magnetism in complex systems, 16 th – 19 th April 2009, TU WienM. Stöger-Pollach Detection of magnetic properties on the nanometer scale.
Electron Microscope. Light Resolution  The resolution of a microscope is limited by the diffraction of light. Single diffractionSingle diffraction 

Electron Microscope. Light Resolution  The resolution of a microscope is limited by the diffraction of light. Single diffractionSingle diffraction 
Micro PIV  An optical diagnostic technique for microfluidics (e.g. MEMS, biological tissues, inkjet printer head) Requirements: Measure instantaneously.

Micro PIV  An optical diagnostic technique for microfluidics (e.g. MEMS, biological tissues, inkjet printer head) Requirements: Measure instantaneously.
Infrared Radiation 780 nm m Near, Mid and Far

Infrared Radiation 780 nm m Near, Mid and Far
FT-IR Instrument. Components Source Michelson Interferometer Sample Detector.

FT-IR Instrument. Components Source Michelson Interferometer Sample Detector.
Towards X-ray excited optical microscopy (XEOM) for cultural heritage, spectroelectrochemistry, and wider applications Mark Dowsett 1, Annemie Adriaens.

Towards X-ray excited optical microscopy (XEOM) for cultural heritage, spectroelectrochemistry, and wider applications Mark Dowsett 1, Annemie Adriaens.
BY SANTANU PRAMANIK(09369) HITESH KUMAR GUPTA(09320) CHANDAN SINGH(09260) SCANNING ELECTRON MICROSCOPE MATERIAL SCIENCE ASSIGNMENT.

BY SANTANU PRAMANIK(09369) HITESH KUMAR GUPTA(09320) CHANDAN SINGH(09260) SCANNING ELECTRON MICROSCOPE MATERIAL SCIENCE ASSIGNMENT.
Seminar Author: Bojan Hiti Mentor: doc. dr. Matjaž Kavčič Determination of trace impurities on Si wafers with x-ray fluorescence.

Seminar Author: Bojan Hiti Mentor: doc. dr. Matjaž Kavčič Determination of trace impurities on Si wafers with x-ray fluorescence.
Vikrant Sista Roll No: EE10S012 IR and UV solar cells for windows and energy scavenging applications.

Vikrant Sista Roll No: EE10S012 IR and UV solar cells for windows and energy scavenging applications.

Similar presentations

Ads by Google