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On the Protoporphyrin Monolayers Conformation

Bibliographic reference Humbert, Christophe ; Dreesen, Laurent ; Sartenaer, Yannick ; Peremans, Andre ; Thiry, Paul A. ; et. al. On the Protoporphyrin Monolayers Conformation. In: ChemPhysChem : a European journal of chemical physics and physical chemistry, Vol. 7, no. 3, p. 569-571 (2006)
Permanent URL http://hdl.handle.net/2078.1/77732
  1. Yamashita Kazuo, Harima Yutaka, Matsubayashi Tatsuro, Conductance control of porphyrin solids by molecular design and doping, 10.1021/j100350a053
  2. Yoshimura D., Ishii H., Narioka S., Sei M., Miyazaki T., Ouchi Y., Hasegawa S., Harima Y., Yamashita K., Seki K., The electronic structure of porphyrin/metal interfaces studied by UV photoemission spectroscopy, 10.1016/s0379-6779(97)81177-0
  3. Uosaki Kohei, Kondo Toshihiro, Zhang Xue-Qun, Yanagida Masatoshi, Very Efficient Visible-Light-Induced Uphill Electron Transfer at a Self-Assembled Monolayer with a Porphyrin−Ferrocene−Thiol Linked Molecule, 10.1021/ja970945p
  4. Brancaleon Lorenzo, Moseley Harry, Effects of photoproducts on the binding properties of protoporphyrin IX to proteins, 10.1016/s0301-4622(02)00035-2
  5. Schick G. Alan, Schreiman Irwin C., Wagner Richard W., Lindsey Jonathan S., Bocian David F., Spectroscopic characterization of porphyrin monolayer assemblies, 10.1021/ja00186a030
  6. Zhang Zhijun, Verma Anandi Lal, Yoneyama Mitsuru, Nakashima Kenichi, Iriyama Keiji, Ozaki Yukihiro, Molecular Orientation and Aggregation in Langmuir−Blodgett Films of 5-(4-N-Octadecylpyridyl)-10,15,20-tri-p-tolylporphyrin Studied by Ultraviolet−Visible and Infrared Spectroscopies, 10.1021/la970122d
  7. Kim Yong Hee, Jeong Dae Hong, Kim Dongho, Jeoung Sae Chae, Cho Hyun Sun, Kim Seong Keun, Aratani Naoki, Osuka Atsuhiro, Photophysical Properties of Long RodlikeMeso−Meso-Linked Zinc(II) Porphyrins Investigated by Time-Resolved Laser Spectroscopic Methods, 10.1021/ja0009976
  8. Thomas P.J., Berovic N., Laitenberger P., Palmer R.E., Bampos N., Sanders J.K.M., Room temperature manipulation of self-organised supramolecular nanostructures with a scanning tunnelling microscope, 10.1016/s0009-2614(98)00790-8
  9. Duong B, Arechabaleta R, Tao N.J, In situ AFM/STM characterization of porphyrin electrode films for electrochemical detection of neurotransmitters, 10.1016/s0022-0728(97)00463-4
  10. Zak Jerzy, Yuan Hongping, Ho Mankit, Woo L. Keith, Porter Marc D., Thiol-derivatized metalloporphyrins: monomolecular films for the electrocatalytic reduction of dioxygen at gold electrodes, 10.1021/la00035a006
  11. Nishimura Noboru, Ooi Masanori, Shimazu Katsuaki, Fujii Hiroshi, Uosaki Kohei, Post-assembly insertion of metal ions into thiol-derivatized porphyrin monolayers on gold, 10.1016/s0022-0728(99)00287-9
  12. Shen Y. R., Surface properties probed by second-harmonic and sum-frequency generation, 10.1038/337519a0
  13. Bain Colin D., Sum-frequency vibrational spectroscopy of the solid/liquid interface, 10.1039/ft9959101281
  14. Williams Christopher T, Beattie David A, Probing buried interfaces with non-linear optical spectroscopy, 10.1016/s0039-6028(01)01536-9
  15. Wei Xing, Hong Seok-Cheol, Lvovsky A. I., Held Hermann, Shen Y. R., Evaluation of Surface vs Bulk Contributions in Sum-Frequency Vibrational Spectroscopy Using Reflection and Transmission Geometries†, 10.1021/jp9933929
  16. Richmond G. L., Molecular Bonding and Interactions at Aqueous Surfaces as Probed by Vibrational Sum Frequency Spectroscopy, 10.1021/cr0006876
  17. Dreesen L, Humbert C, Hollander P, Mani A.A, Ataka K, Thiry P.A, Peremans A, Study of the water/poly(ethylene glycol) interface by IR-visible sum-frequency generation spectroscopy, 10.1016/s0009-2614(00)01383-x
  18. Zhang D., Ward R. S., Shen Y. R., Somorjai G. A., Environment-Induced Surface Structural Changes of a Polymer:  Anin SituIR + Visible Sum-Frequency Spectroscopic Study, 10.1021/jp9718358
  19. Wang Jie, Even Mark A., Chen Xiaoyun, Schmaier Alvin H., Waite J. Herbert, Chen Zhan, Detection of Amide I Signals of Interfacial Proteins in Situ Using SFG, 10.1021/ja036373s
  20. Dreesen Laurent, Sartenaer Yannick, Humbert Christophe, Mani Alaa A., Méthivier Christophe, Pradier Claire-Marie, Thiry Paul A., Peremans André, Probing Ligand-Protein Recognition with Sum-Frequency Generation Spectroscopy: The Avidin-Biocytin Case, 10.1002/cphc.200400213
  21. Raschke M.B., Hayashi M., Lin S.H., Shen Y.R., Doubly-resonant sum-frequency generation spectroscopy for surface studies, 10.1016/s0009-2614(02)00560-2
  22. Humbert C, Dreesen L, Mani A.A, Caudano Y, Lemaire J.-J, Thiry P.A, Peremans A, IR–visible sum-frequency vibrational spectroscopy of Biphenyl-3 methylene thiol monolayer on gold and silver: effect of the visible wavelength on the SFG spectrum, 10.1016/s0039-6028(01)01933-1
  23. Chou K. C., Westerberg S., Shen Y. R., Ross P. N., Somorjai G. A., Probing the charge-transfer state of CO on Pt(111) by two-dimensional infrared-visible sum frequency generation spectroscopy, 10.1103/physrevb.69.153413
  24. Dreesen L., Humbert C., Sartenaer Y., Caudano Y., Volcke C., Mani A. A., Peremans A., Thiry P. A., Hanique S., Frère J.-M., Electronic and Molecular Properties of an Adsorbed Protein Monolayer Probed by Two-Color Sum-Frequency Generation Spectroscopy, 10.1021/la0488001
  25. Caudano Y., Silien C., Humbert C., Dreesen L., Mani A.A., Peremans A., Thiry P.A., Electron–phonon couplings at C60 interfaces: a case study by two-color, infrared–visible sum–frequency generation spectroscopy, 10.1016/s0368-2048(03)00062-8
  26. Wiesendanger Roland, Scanning Probe Microscopy and Spectroscopy : Methods and applications, ISBN:9780511524356, 10.1017/cbo9780511524356
  27. Volcke Cedric, Simonis Priscilla, Durant François, Thiry Paul A., Lambin Philippe, Culot Christine, Humbert Christophe, Use of Specific Functionalised Tips with STM: A New Identification Method of Ester Groups and Their Molecular Structure in Self-Assembled Overlayers, 10.1002/chem.200401169
  28. Lin-Vien, The Handbook of Infrared and Raman Characteristic Frequencies of Organic Molecules (1991)