Article
Publicly Available
Critical evaluation of stability constants for alpha-hydroxycarboxylic acid complexes with protons and metal ions and the accompanying enthalpy changesPart I: Aromatic ortho-hydroxycarboxylic acids (Technical Report)
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L. H. J. Lajunen
Published/Copyright:
January 1, 2009
Published Online: 2009-01-01
Published in Print: 1997-02-28
© 2013 Walter de Gruyter GmbH, Berlin/Boston
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- Physical organic chemistry in the making
- Beyond the traditional confines: Physical organic chemistry in the 21st century
- Physical organic chemistry in the twenty-first century: Evanescent or transcendent?
- Kinetic and mechanistic studies of free radical reactions in the 21st century
- QSPR as a means of predicting and understanding chemical and physical properties in terms of structure
- Rethinking physical organic chemistry
- The physical organic chemist as a materials scientist in the 21st century
- From a synthetic organic chemist
- Modern trends in physical organic chemistry
- Whither physical organic chemistry or to what degree does it really exist? A personal view
- Where is physical organic chemistry going?
- Physical organic chemistry. Electron transier chemistry. Molecular electrochemistry
- Perspectives and challenges of physical organic chemistry
- Some personal views on the past and future of physical organic chemistry
- Physical organic chemistry: Quo Vadis?
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- The influence of physical organic chemistry on studies of organometallic complexes
- Reporting of relative sulfur isotope-ratio data (Technical Report)
- A statistical overview of standard (IUPAC and ACS) and new procedures for determining the limits of detection and quantification: Application to voltammetric and stripping techniques (Technical Report)
- Critical evaluation of stability constants for alpha-hydroxycarboxylic acid complexes with protons and metal ions and the accompanying enthalpy changesPart I: Aromatic ortho-hydroxycarboxylic acids (Technical Report)
Articles in the same Issue
- The first century of physical organic chemistry: A prologue
- Summary
- Physical organic chemistry in the 21st century: Will it be recognizable?
- What will physical organic chemistry achieve in the 21st century?
- Gas-phase ion chemistry in the 21st century
- Physical organic chemistry in the making
- Beyond the traditional confines: Physical organic chemistry in the 21st century
- Physical organic chemistry in the twenty-first century: Evanescent or transcendent?
- Kinetic and mechanistic studies of free radical reactions in the 21st century
- QSPR as a means of predicting and understanding chemical and physical properties in terms of structure
- Rethinking physical organic chemistry
- The physical organic chemist as a materials scientist in the 21st century
- From a synthetic organic chemist
- Modern trends in physical organic chemistry
- Whither physical organic chemistry or to what degree does it really exist? A personal view
- Where is physical organic chemistry going?
- Physical organic chemistry. Electron transier chemistry. Molecular electrochemistry
- Perspectives and challenges of physical organic chemistry
- Some personal views on the past and future of physical organic chemistry
- Physical organic chemistry: Quo Vadis?
- Physical organic chemistry
- The influence of physical organic chemistry on studies of organometallic complexes
- Reporting of relative sulfur isotope-ratio data (Technical Report)
- A statistical overview of standard (IUPAC and ACS) and new procedures for determining the limits of detection and quantification: Application to voltammetric and stripping techniques (Technical Report)
- Critical evaluation of stability constants for alpha-hydroxycarboxylic acid complexes with protons and metal ions and the accompanying enthalpy changesPart I: Aromatic ortho-hydroxycarboxylic acids (Technical Report)
