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BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20200501T153000
DTEND;TZID=America/Los_Angeles:20200501T153000
DTSTAMP:20260620T164448
CREATED:20200504T205150Z
LAST-MODIFIED:20200504T205150Z
UID:13329-1588347000-1588347000@www.chemistry.ucla.edu
SUMMARY:Chem 268: Eric J. Deeds
DESCRIPTION:“Robustness and kinetic trapping in proteasome assembly”
URL:https://www.chemistry.ucla.edu/seminars/chem-268-eric-j-deeds/
CATEGORIES:Biochemistry,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20200508T153000
DTEND;TZID=America/Los_Angeles:20200508T153000
DTSTAMP:20260620T164448
CREATED:20200504T204853Z
LAST-MODIFIED:20200504T204853Z
UID:13328-1588951800-1588951800@www.chemistry.ucla.edu
SUMMARY:Chem 268: Kat Ellis-Guardiola
DESCRIPTION:“Probing Mechanisms of Bacterial Heme Acquisition from Hemoglobin”
URL:https://www.chemistry.ucla.edu/seminars/chem-268-kat-ellis-guardiola/
CATEGORIES:Biochemistry,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20200515T153000
DTEND;TZID=America/Los_Angeles:20200515T153000
DTSTAMP:20260620T164448
CREATED:20200504T205337Z
LAST-MODIFIED:20200504T205337Z
UID:13330-1589556600-1589556600@www.chemistry.ucla.edu
SUMMARY:Chem 268: Kate Liu
DESCRIPTION:“Mass Spectrometry in Quantitative Proteomics and Biopharmaceutical Characterization”
URL:https://www.chemistry.ucla.edu/seminars/chem-268-kate-liu/
CATEGORIES:Biochemistry,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20200522T153000
DTEND;TZID=America/Los_Angeles:20200522T153000
DTSTAMP:20260620T164448
CREATED:20200504T205649Z
LAST-MODIFIED:20200504T205649Z
UID:13331-1590161400-1590161400@www.chemistry.ucla.edu
SUMMARY:Chem 268: Shiho Tanaka
DESCRIPTION:“Power of Biophysical Analyses in Drug Discovery”
URL:https://www.chemistry.ucla.edu/seminars/chem-268-shiho-tanaka/
CATEGORIES:Biochemistry,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20200528T120000
DTEND;TZID=America/Los_Angeles:20200528T120000
DTSTAMP:20260620T164448
CREATED:20200527T233322Z
LAST-MODIFIED:20200527T233322Z
UID:13334-1590667200-1590667200@www.chemistry.ucla.edu
SUMMARY:Chem 218: Nanoscale vibrational spectroscopy of gold-cyanide self-assemblies: From monolayers to crystallites - Kristopher Barr
DESCRIPTION:Nanoscale vibrational spectroscopy of gold-cyanide self-assemblies: From monolayers to crystallites \nMy thesis work focuses on the integration of scanning tunneling microscopy with infrared spectroscopy\, to provide unprecedented Ångstrom-scale resolution in surface imaging with spatially correlated chemical specificity. Scanning probe techniques generally lack chemical information. Inspired by recent advances coupling optical spectroscopies with scanning probe microscopies\, I have developed a nanoscale infrared spectroscopic method applying scanning tunneling microscope probe tips as nanoantennas to obtain multiplexed molecular vibrational signals utilizing a Fourier transform interferometer at room temperature and ambient pressure. The sensitivity of the tunneling junction and nanoscale probe area enables the measurement of vibrational spectra orders of magnitude below the diffraction limit. I substantiated the effectiveness of this instrument by designing an air- and temperature-stable model system characterized by infrared absorption that couples to the electronic states of the gold substrate. Specifically\, aurous cyanide (AuCN) self-assembled monolayers satisfy these requirements with the added benefit that its IR absorption lies outside of the carbon dioxide and water windows\, thereby maintaining a high signal-to-noise ratio for these experiments. These atomically pristine hexagonal close-packed AuCN monolayers exhibit a strong absorption at 2140 cm−1. Upon thermal annealing\, the surface rearranges into a ribbon structure with a blue-shifted absorption to 2230 cm−1. The unique vibrational contrast in AuCN monolayers resulting from thermally induced structural changes serves as an ideal model system for the new infrared scanning tunneling microscope (IR-STM). Upon prolonged vapor deposition\, the self-assembled cyanide monolayers reconfigure into large-scale AuCN crystals\, giving two distinct morphologies and significantly different vibrational modes\, compared to the AuCN monolayer structures. Once again\, temperature can tune gold-cyanide orientation and long-range ordering. This work provides new insights for controlled surface-mediated crystal growth in AuCN systems. Ultimately\, combining with the chemical information gained from the developed IR-STM\, surface-mediated growth will enable new methodologies for fabricating next-generation nanoscale semiconductors. Nanoscale semiconductors based on AuCN that are similar to nanoribbon structures have been demonstrated to be useful for nanoelectronics as well as in catalytic applications.
URL:https://www.chemistry.ucla.edu/seminars/chem-218-nanoscale-vibrational-spectroscopy-gold-cyanide-self-assemblies-monolayers/
CATEGORIES:Other,Seminars
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/Los_Angeles:20200529T153000
DTEND;TZID=America/Los_Angeles:20200529T153000
DTSTAMP:20260620T164448
CREATED:20200504T211546Z
LAST-MODIFIED:20200504T211546Z
UID:13332-1590766200-1590766200@www.chemistry.ucla.edu
SUMMARY:Chem 268: Jeffery Liu
DESCRIPTION:“Phosphoproteomics Reveals Spatial and Temporal Signal Transduction by Brain Opioid Receptor”
URL:https://www.chemistry.ucla.edu/seminars/chem-268-jeffery-liu/
CATEGORIES:Biochemistry,Seminars
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