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Items: 1 to 20 of 104

1.

Vibrationally resolved sum-frequency generation with broad-bandwidth infrared pulses.

Richter LJ, Petralli-Mallow TP, Stephenson JC.

Opt Lett. 1998 Oct 15;23(20):1594-6.

PMID:
18091855
2.

Ultrafast nonlinear coherent vibrational sum-frequency spectroscopy methods to study thermal conductance of molecules at interfaces.

Carter JA, Wang Z, Dlott DD.

Acc Chem Res. 2009 Sep 15;42(9):1343-51. doi: 10.1021/ar9000197. Review.

PMID:
19388671
3.
5.

Vibrational sum frequency generation spectroscopy using inverted visible pulses.

Weeraman C, Mitchell SA, Lausten R, Johnston LJ, Stolow A.

Opt Express. 2010 May 24;18(11):11483-94. doi: 10.1364/OE.18.011483.

PMID:
20589009
6.

Temporal effects on spectroscopic line shapes, resolution, and sensitivity of the broad-band sum frequency generation.

Stiopkin IV, Jayathilake HD, Weeraman C, Benderskii AV.

J Chem Phys. 2010 Jun 21;132(23):234503. doi: 10.1063/1.3432776.

PMID:
20572717
7.
8.
9.

Femtosecond time-resolved and two-dimensional vibrational sum frequency spectroscopic instrumentation to study structural dynamics at interfaces.

Ghosh A, Smits M, Bredenbeck J, Dijkhuizen N, Bonn M.

Rev Sci Instrum. 2008 Sep;79(9):093907. doi: 10.1063/1.2982058.

PMID:
19044428
10.

Novel SiO2-deposited CaF2 substrate for vibrational sum-frequency generation (SFG) measurements of chemisorbed monolayers in an aqueous environment.

Padermshoke A, Konishi S, Ara M, Tada H, Ishibashi TA.

Appl Spectrosc. 2012 Jun;66(6):711-8. doi: 10.1366/11-06583.

PMID:
22732544
11.

Surface-enhanced IR-visible sum frequency generation vibrational spectroscopy.

Li Q, Kuo CW, Yang Z, Chen P, Chou KC.

Phys Chem Chem Phys. 2009 May 14;11(18):3436-42. doi: 10.1039/b821045d. Epub 2009 Feb 25.

PMID:
19421546
12.

Diffuse reflection broad bandwidth sum frequency generation from particle surfaces.

Ma G, Allen HC.

J Am Chem Soc. 2002 Aug 14;124(32):9374-5.

PMID:
12167023
13.

Multimodal Broadband Vibrational Sum Frequency Generation (MM-BB-V-SFG) Spectrometer and Microscope.

Lee CM, Kafle K, Huang S, Kim SH.

J Phys Chem B. 2016 Jan 14;120(1):102-16. doi: 10.1021/acs.jpcb.5b10290. Epub 2015 Dec 31.

PMID:
26718642
14.

Time-domain SFG spectroscopy using mid-IR pulse shaping: practical and intrinsic advantages.

Laaser JE, Xiong W, Zanni MT.

J Phys Chem B. 2011 Mar 24;115(11):2536-46. doi: 10.1021/jp200757x. Epub 2011 Mar 2. Erratum in: J Phys Chem B. 2011 Aug 18;115(32):9920.

PMID:
21366211
15.

Structure of mixed phosphatidylethanolamine and cholesterol monolayers in a supported hybrid bilayer membrane studied by sum frequency generation vibrational spectroscopy.

Kett PJ, Casford MT, Davies PB.

J Phys Chem B. 2011 May 26;115(20):6465-73. doi: 10.1021/jp1112685. Epub 2011 May 4.

PMID:
21542565
16.

Comparative study of direct and phase-specific vibrational sum-frequency generation spectroscopy: advantages and limitations.

Pool RE, Versluis J, Backus EH, Bonn M.

J Phys Chem B. 2011 Dec 29;115(51):15362-9. doi: 10.1021/jp2079023. Epub 2011 Dec 5.

PMID:
22074616
17.

Ultra-broadband sum-frequency vibrational spectrometer of aqueous interfaces based on a non-collinear optical parametric amplifier.

Isaienko O, Borguet E.

Opt Express. 2012 Jan 2;20(1):547-61. doi: 10.1364/OE.20.000547.

PMID:
22274376
18.

Ti: sapphire-based picosecond visible-infrared sum-frequency spectroscopy from 900-3100 cm-1.

Hore DK, King JL, Moore FG, Alavi DS, Hamamoto MY, Richmond GL.

Appl Spectrosc. 2004 Dec;58(12):1377-84.

PMID:
15606948
19.

Interface-specific ultrafast two-dimensional vibrational spectroscopy.

Bredenbeck J, Ghosh A, Nienhuys HK, Bonn M.

Acc Chem Res. 2009 Sep 15;42(9):1332-42. doi: 10.1021/ar900016c. Review.

PMID:
19441810
20.

Real-time coherent detection of phase modulated ultrashort pulses after time-to-space conversion and spatial demultiplexing.

Shayovitz D, Herrmann H, Sohler W, Ricken R, Silberhorn C, Marom DM.

Opt Express. 2014 Dec 15;22(25):31138-45. doi: 10.1364/OE.22.031138.

PMID:
25607063

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