000 02847nam a2200241Ia 4500
003 NULRC
005 20250520094917.0
008 250520s9999 xx 000 0 und d
020 _a751402265
040 _cNULRC
050 _aQD 75.2 .F45 1995
100 _aFifield, F. W.
_eauthor
245 0 _aPrinciples and practice of analytical chemistry /
_cF.W. Fifield and D. Kealey.
250 _aFourth edition.
260 _aLondon, United Kingdom :
_bBlackie Academic & Professional,
_cc1995
300 _axii, 560 pages :
_billustrations ;
_c24 cm.
504 _aIncludes bibliographical references and index.
505 _aAnalytical chemistry : an introduction. The assessment for analytical data ; pH, complexation and solubility equilibria ; Separation techniques ; Titrimetry and gravimetry ; Electrochemical techniques ; Atomic spectrometry ; Molecular spectrometry ; Radiochemical methods in analysis ; Thermal techniques ; Overall analytical procedures and their automation ; The role of computers and micro-processors in analytical chemistry.
520 _aThere have been significant advances in both analytical instrumentation and computerised data handling during the five years since the third edition was published in 1990. Windows-based computer software is now widely available for instrument control and real-time data processing and the use of laboratory information and management systems (LIMS) has become commonplace. Whilst most analytical techniques have undergone steady improvements in instrument design, high-performance capillary electrophoresis (HPCE or CE) and two­ dimensional nuclear magnetic resonance spectrometry (2D-NMR) have developed into major forces in separation science and structural analysis respectively. The powerful and versatile separation technique of CE promises to rival high-performance liquid chromatography, particularly in the separ­ ation of low levels of substances of biological interest. The spectral inform­ ation provided by various modes of 2D-NMR is enabling far more complex molecules to be studied than hitherto. The electrophoresis section of chapter 3 and the NMR section of chapter 9 have therefore been considerably expanded in the fourth edition along with a revision of aspects of atomic spectrometry (chapter 8). New material has been included on fluorescence spectrometry (chapter 9), the use of Kovats Retention Indices in gas chroma­ tography (chapter 3) and solid phase extraction for sample cleanup and concentration (chapter 12). Additions to high performance liquid chroma­ tography (chapter 3) reflect the growing importance of chiral stationary phases, solvent optimization and pH control, continuous regeneration car­ tridges for ion chromatography and HPLC-MS.
650 _aANALYTICAL CHEMISTRY
700 _aD. Kealey.
_eco-author
942 _2lcc
_cBK
999 _c5993
_d5993