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From forensics and security to pharmaceuticals and environmental
applications, spectroscopic detection is one of the most
cost-effective methods for identifying chemical compounds in a wide
range of disciplines. For spectroscopic information, correlation
charts are far more easily used than tables, especially for
scientists and students whose own areas of specialization may lie
elsewhere. The CRC Handbook of Fundamental Spectroscopic
Correlation Charts provides a collection of spectroscopic
information and unique correlation charts for use in the
interpretation of spectroscopic measurements. The handbook presents
useful analysis and assignment of spectra and structural
elucidation of organic and organometallic molecules. The
correlation charts are compiled from an extensive search of
spectroscopic literature and contain current, detailed information
that includes new results for many compounds. The handbook includes
graphical data charts for nuclear magnetic resonance spectroscopy
of the most useful nuclei, as well as infrared and ultraviolet
spectrophotometry. Because mass spectrometry data is not best
represented graphically, the data are presented in tabular form,
where mass spectrometry can be used for analyses and structural
determinations in tandem with other techniques. In addition to
presenting absorption bands and intensities for a variety of
important functional groups and chemical families, the book also
discusses instrument calibration, diagnostics, common solvents,
fragmentation patterns, several practical conversion tables, and
laboratory safety. Not intended to replace reference works that
provide exhaustive spectral charts on specific compound classes,
this book fillsthe need for fundamental charts that are needed on a
general, day-to-day basis. The CRC Handbook of Fundamental
Spectroscopic Correlation Charts is an ideal laboratory companion
for students and professionals in academic, industrial, and
government labs.
Researchers in chemistry, chemical engineering, pharmaceutical
science, forensics, and environmental science make routine use of
chemical analysis, but the information these researchers need is
often scattered in different sources and difficult to access. The
CRC Handbook of Basic Tables for Chemical Analysis: Data-Driven
Methods and Interpretation, Fourth Edition is a one-stop reference
that presents updated data in a handy format specifically designed
for use when reaching a decision point in designing an analysis or
interpreting results. This new edition offers expanded coverage of
calibration and uncertainty, and continues to include the critical
information scientists rely on to perform accurate analysis.
Enhancements to the Fourth Edition: Compiles a huge array of useful
and important data into a single, convenient source Explanatory
text provides context for data and guidelines on applications
Coalesces information from several different fields Provides
information on the most useful "wet" chemistry methods as well as
instrumental techniques, with an expanded discussion of laboratory
safety Contains information of historical importance necessary to
interpret the literature and understand current methodology.
Unmatched in its coverage of the range of information scientists
need in the lab, this resource will be referred to again and again
by practitioners who need quick, easy access to the data that forms
the basis for experimentation and analysis.
Researchers in chemistry, chemical engineering, pharmaceutical
science, forensics, and environmental science make routine use of
chemical analysis, but the information these researchers need is
often scattered in different sources and difficult to access. The
CRC Handbook of Basic Tables for Chemical Analysis: Data-Driven
Methods and Interpretation, Fourth Edition is a one-stop reference
that presents updated data in a handy format specifically designed
for use when reaching a decision point in designing an analysis or
interpreting results. This new edition offers expanded coverage of
calibration and uncertainty, and continues to include the critical
information scientists rely on to perform accurate analysis.
Enhancements to the Fourth Edition: Compiles a huge array of useful
and important data into a single, convenient source Explanatory
text provides context for data and guidelines on applications
Coalesces information from several different fields Provides
information on the most useful "wet" chemistry methods as well as
instrumental techniques, with an expanded discussion of laboratory
safety Contains information of historical importance necessary to
interpret the literature and understand current methodology.
Unmatched in its coverage of the range of information scientists
need in the lab, this resource will be referred to again and again
by practitioners who need quick, easy access to the data that forms
the basis for experimentation and analysis.
Covers the latest developments in UPLC and hyphenated techniques.
Provides detailed coverage of sampling, sample handling, sample
storage, and sample preparation. Expands coverage of Surface
Analysis
Many laboratories are engaged in research on the development of new
fluids for use as refrigerants to replace the fully halogenated
materials that are believed to contribute to atmospheric ozone
depletion. An integral part of this effort is the chemical analysis
of new fluids that are synthesized, prepared, and tested. This
comprehensive book, which is divided into two parts, fills an
important need in this vital chemical analysis protocol. The first
part reviews the major chemical analysis methods that have been
developed and used at NIST and in other laboratories. This review
covers spectroscopic, chromatographic, and "wet" analytical
methods, with treatment divided by qualitative identification,
qualitative determinations, and chemical reaction screening. The
second part contains a compilation of analytical information of the
new fluids and their products. Physical properties, mass spectra,
infrared spectra, ultraviolet spectra, nuclear magnetic resonance
spectra, and gas chromatographic retention data are provided for
each fluid or product.
From forensics and security to pharmaceuticals and environmental
applications, spectroscopic detection is one of the most
cost-effective methods for identifying chemical compounds in a wide
range of disciplines. For spectroscopic information, correlation
charts are far more easily used than tables, especially for
scientists and students whose own areas of specialization may lie
elsewhere. The CRC Handbook of Fundamental Spectroscopic
Correlation Charts provides a collection of spectroscopic
information and unique correlation charts for use in the
interpretation of spectroscopic measurements. The handbook presents
useful analysis and assignment of spectra and structural
elucidation of organic and organometallic molecules. The
correlation charts are compiled from an extensive search of
spectroscopic literature and contain current, detailed information
that includes new results for many compounds. The handbook includes
graphical data charts for nuclear magnetic resonance spectroscopy
of the most useful nuclei, as well as infrared and ultraviolet
spectrophotometry. Because mass spectrometry data is not best
represented graphically, the data are presented in tabular form,
where mass spectrometry can be used for analyses and structural
determinations in tandem with other techniques. In addition to
presenting absorption bands and intensities for a variety of
important functional groups and chemical families, the book also
discusses instrument calibration, diagnostics, common solvents,
fragmentation patterns, several practical conversion tables, and
laboratory safety. Not intended to replace reference works that
provide exhaustive spectral charts on specific compound classes,
this book fills the need for fundamental charts that are needed on
a general, day-to-day basis. The CRC Handbook of Fundamental
Spectroscopic Correlation Charts is an ideal laboratory companion
for students and professionals in academic, industrial, and
government labs.
The 2019 edition of ASM Handbook, Volume 10: Materials
Characterization provides detailed technical information that will
enable readers to select and use analytical techniques that are
appropriate for their problem. Each article describing a
characterization technique begins with an overview of the method in
simplified terms and lists common applications as well as
limitations. Sample size, form, and special preparation
requirements are listed upfront to help readers quickly decide if
the techniques are appropriate to solve their problem. Tables and
charts listing the most common characterization methods for
different classes of materials are included in the beginning of the
handbook. The tables give information on whether the technique is
suitable for elemental analysis, qualitative analysis, surface
analysis, or alloy verification. The articles also describe
material characterization in general terms according to material
type and serve as a jumping off point to the more specific
technique articles.
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