Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Ser

Gmehling, J., and U. Onken "Vapor-Liquid Equilibrium Data Collection," DECHEMA Chemistry Data Ser., Vol. 1 (1-10), Frankfurt, 1977. [Pg.8]

Landolt-Bornstein "Zahlenwerte und Funktionen aus Naturwissenschaft und Technik," New. Ser. Group IV, Vol. Ill, Springer Verlag, Berlin, 1975. Also Part 4c (Solubility of Gases in Liquids), 1976. [Pg.10]

Stephanopoulos, G., Linnhoff, B., and Sophos, A., Synthesis of Heat Integrated Distillation Sequences, IChemE Symp. Ser., 74 111, 1982. [Pg.157]

Kayihan, F., Optimum Distribution of Heat Load in Distillation Columns Using Intermediate Condensers and Reboilers, AfC/iS Symp. Ser., 192(76) 1, 1980. [Pg.354]

SERS Surface-enhanced Raman spectroscopy [214-217] Same as RS but with roughened metal (usually silver) substrate Greatly enhanced intensity... [Pg.318]

SERRS Surface-enhanced RRS [214, 217] Same as SERS but using a wavelength corresponding to an absorption band Magnetic Spectroscopies Same as SERS... [Pg.318]

Fig. XV-6. Pressure-area isotherms for a synthetic lecithin at the indicated temperatures in degrees Celsius. [From H. E. Ries, Jr., M. Matsumoto, N. Uyeda, and E. Suito, Adv. Chem. Ser, No. 144, ACS, 1975, p. 286 (Ref. 37). Copyright 1975, American Chemical Society.]... Fig. XV-6. Pressure-area isotherms for a synthetic lecithin at the indicated temperatures in degrees Celsius. [From H. E. Ries, Jr., M. Matsumoto, N. Uyeda, and E. Suito, Adv. Chem. Ser, No. 144, ACS, 1975, p. 286 (Ref. 37). Copyright 1975, American Chemical Society.]...
SERS. A phenomenon that certainly involves the adsorbent-adsorbate interaction is that of surface-enhanced resonance Raman spectroscopy, or SERS. The basic observation is that for pyridine adsorbed on surface-roughened silver, there is an amazing enhancement of the resonance Raman intensity (see Refs. 124—128). More recent work has involved other adsorbates and colloidal... [Pg.591]

Truhlar D G (ed) 1984 Resonances in Electron-Molecule Scattering, van der Waals Complexes, and Reactive Chemical Dynamics (ACS Symp. Ser. 263) (Washington, DC American Chemical Society)... [Pg.1003]

Quack M 1992 Time dependent intramolecular quantum dynamics from high resolution spectroscopy and laser chemistry Time Dependent Quantum Molecular Dynamics Experiment and Theory. Proc. NATO ARW 019/92 (NATO ASI Ser. Vol 299) ed J Broeckhove and L Lathouwers (New York Plenum) pp 293-310... [Pg.1089]

The metal substrate evidently affords a huge ( 10 and even as high as 10 [84, 85]) increase in the cross-section for Raman scattering of the adsorbate. There are two broad classes of mechanisms which are said to contribute to this enhancenient [, and Ml- The first is based on electromagnetic effects and the second on cheniicaT effects. Of these two classes the fomier is better understood and, for the most part, the specific mechanisms are agreed upon the latter is more complicated and is less well understood. SERS enhancenient can take place in either physisorbed or chemisorbed situations, with the chemisorbed case typically characterized by larger Raman frequency shifts from the bulk phase. [Pg.1206]

The substrate is, of course, a necessary component of any SERS experiment. A wide variety of substrate surfaces have been prepared for SERS studies by an equally wide range of teclmiques [ ]. Two important substrates are electrocheniically prepared electrodes and colloidal surfaces (either deposited or in solution). [Pg.1206]

In addition to the many applications of SERS, Raman spectroscopy is, in general, a usefiil analytical tool having many applications in surface science. One interesting example is that of carbon surfaces which do not support SERS. Raman spectroscopy of carbon surfaces provides insight into two important aspects. First, Raman spectral features correlate with the electrochemical reactivity of carbon surfaces this allows one to study surface oxidation [155]. Second, Raman spectroscopy can probe species at carbon surfaces which may account for the highly variable behaviour of carbon materials [155]. Another application to surfaces is the use... [Pg.1214]

Another application to biomedicine is to use Raman probing to study DNA biotargets and to identify sequence genes. In fact SERS has been applied to such problems [174]. [Pg.1216]

Plenary 3. Ronald E Hester et al, e-mail address reh York.ac.uk (SERS). Use of dioxane envelope to bring water insoluble cliromophores (chlorophylls) into contact with aqueous silver colloids for SERS enliancement. PSERRS— protected surface-enhanced resonance Raman spectroscopy . [Pg.1217]

See other pages where Ser is mentioned: [Pg.9]    [Pg.204]    [Pg.204]    [Pg.157]    [Pg.28]    [Pg.66]    [Pg.618]    [Pg.99]    [Pg.160]    [Pg.382]    [Pg.383]    [Pg.383]    [Pg.383]    [Pg.383]    [Pg.384]    [Pg.385]    [Pg.388]    [Pg.389]    [Pg.492]    [Pg.494]    [Pg.531]    [Pg.681]    [Pg.1196]    [Pg.1205]    [Pg.1206]    [Pg.1206]    [Pg.1215]   
See also in sourсe #XX -- [ Pg.110 ]



SEARCH



Active Sites and the Quenching of SERS

Amino acids Serine (Ser

Applications of Electrochemical Surface-Enhanced Raman Spectroscopy (EC-SERS)

Applications of SERS-Spectroscopy

Arg-GLy-Asp-Ser

Asn-X-Thr/Ser

BPLP-Ser

Basics of Surface-Enhanced Raman Scattering (SERS)

Bioanalytical SERS Applications

Biomedical SERS

Biomolecular SERS Applications

Biosensors SERS) substrates

Brief Description of the SERS Effect

Characteristics of SERS

Chemical (Molecular) Mechanism of SERS

Chemical Probing in Cells by Intrinsic SERS Spectra

Clinical Utility of SERS

Colloid SERS

Colloid SERS spectroscopy

Cytochrome SERS spectra

EM Mechanism of SERS

Electrochemical Surface-Enhanced Raman Spectroscopy (EC-SERS) Early History, Principles, Methods, and Experiments

Electrochemical phenomena, SERS

Electrode SERS

Electrode potential dependence of SERS

Electrode surface activation for SERS

Endosomal pH Monitored by SERS

Experimental Aspects of Intracellular SERS Studies

Fmoc-D-Ser

Fmoc-Ser

Frequency dependence SERS spectra

From SERS to TERS

Gold electrode, SERS effect

Guanine SERS spectroscopy

Internal Intensity Standards for Quantitative SERS

Intracellular SERS

Intracellular SERS Investigations

Key Factors Influencing SERS

L-Serine (Ser

L-Serine (Ser as nucleophile

L-Serine (Ser biosynthetic pathways from

L-Serine (Ser metabolism of, scheme

Measurement Procedures for EC-SERS

Metals exhibiting SERS

Micro-SERS of Chromosomes

Nanoarrays SERS) substrates

O-Glycan Ser(Thr)-Linked Oligosaccharides

Overall Enhancement Equation for SERS

Plant peptides Val-Ser-Pro

Portable SERS sensor

Potential dependence of SERS

Practical Aspects of SERS

Preparation of SERS Substrates

Principles and Methods of SERS

Quantitative SERS

Quantitative SERS Methods

Raman spectroscopy SERS)

Receptor binding properties ofTyr-D-Ala-Phe- Tyr-Pro-Ser

Remote-Excitation SERS

SEIRA and SERS

SER = surface enhanced Raman spectroscopy

SER Approach

SER spectra

SERS

SERS

SERS (surface enhanced Raman

SERS (surface enhanced Raman Spectroscopy

SERS Biomolecular Detection Schemes

SERS Cancer Diagnostics In Vitro

SERS Experimental Studies

SERS Identification of Biowarfare Agent Anthrax

SERS In Vitro Diagnostics of Other Diseases

SERS Investigations

SERS Investigations of Cells, Viruses and Microorganisms

SERS Medical Applications In Vivo

SERS Sensing of Food Colourants

SERS Sensing of Melamine

SERS Sensing of Pharmaceuticals

SERS Sensing of Pollutants and Pesticides

SERS Surfaces for Electrochemistry

SERS and Surface-Enhanced Resonant Raman Spectroscopy

SERS effect

SERS effect theoretical models

SERS enhancement

SERS enhancement factor, values

SERS has Single-Bacterium Detection Sensitivity

SERS intensity

SERS mechanisms

SERS model, charge transfer

SERS of Corrosion Inhibitors on Bare Transition Metal Electrodes

SERS potential-depending

SERS sample preparation

SERS spectra

SERS spectra advantages

SERS spectra and silver electrodes

SERS spectra electrodes

SERS spectra of deoxyribonucleotides

SERS spectra silver electrodes

SERS studies on monolayer films

SERS substrate

SERS tag

SERS theories

SERS, analytical method

SERS, analytical method Applications

SERS, cytochrome

SERS-Active Substrates

SERS-Based Biosensors

SERS-Based Medical Therapy and Theranostics In Vitro

SERS-active sites

SERS—A Useful Tool

SERS—See Surface-enhanced Raman

SERS—See Surface-enhanced Raman spectroscopy

Sample Preparation for SERS

Selection Rules for SERS

Selectivity SERS)

Ser residues

Ser-CCLl

Ser/Thr phosphatase

Ser/Thr protein kinases

Ser/Thr protein phosphatases

Ser/Thr specific protein kinase

Ser/Thr specific protein phosphatase

Serine (Ser

Silver SERS effect

Single surface-enhanced, SERS

Single-molecule SERS

Sm-SERS

Solids) which Exhibit SERS

Solids, exhibiting SERS

Some Molecules and SERS Behavior

Some applications of SERS

Spectroscopy SERS)

Spectroscopy comparison with SERS

Surface SERS)

Surface Selection Rules in SERS

Surface enhanced Raman spectra SERS)

Surface sensitivity, SERS

Surface spectroscopy, sample preparation SERS)

Surface-enhanced Raman scattering (SERS

Surface-enhanced Raman scattering SERS) effect

Surface-enhanced Raman spectroscopy SERS intensity

Surface-enhanced Raman spectroscopy borrowed SERS activity

Surfaces surface enhanced Raman spectra (SERS

Synthesis and Experiment on SERS

TLC/SERS

Techniques for SERS

The Chemical Effects in SERS

The Chemical Enhancement in SERS

The EM Model for SERS

The SERS Experiment

The SERS Mechanism

The Short-Range Sensitivity of SERS

Theoretical Models of SERS

Using SERS to Detect Viruses in Biological Media

Using SERS to Differentiate between Types of Bacteria

Using SERS to Distinguish between Live and Dead Bacteria

Val-Ser-Pro

Val-Tyr-Pro-Asp-Ser-Ala

Vibrational spectroscopy SERS)

Water SERS effect

What is the SERS Mechanism

© 2024 chempedia.info