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- Organophosphorus Chemistry: Volume 42, Quinquevalent phosphorus acids. Piotr Bałczewski, Joanna Skalik
, 2013
, Volume 42
, Pages 81-196
- Phosphorus-Based Polymers: From Synthesis to Applications, Subject Index
, 2014
, Pages 294-318
- Organophosphorus Chemistry: Volume 46, Quinquevalent phosphorus acids. Piotr Bałczewski, Joanna Skalik
, 2017
, Volume 46
, Pages 213-322
- Phosphorus-Based Polymers: From Synthesis to Applications, CHAPTER 1 Polymerization of Phosphorus-Containing (Meth)acrylate Monomers. Sophie Monge, Benjamin Canniccioni, Ghislain David, Jean-Jacques Robin
, 2014
, Pages 1-18
- Simulating Enzyme Reactivity: Computational Methods in Enzyme Catalysis, Chapter 8 Key Concepts and Applications of ONIOM Methods. Hajime Hirao, Kai Xu, Pratanphorn Chuanprasit, Adhitya Mangala Putra Moeljadi, Keiji Morokuma
, 2017
, Pages 245-293
- Organophosphorus Chemistry: Volume 43, Chapter 6 Quinquevalent phosphorus acids. P. Bałczewski, A. Bodzioch
, 2014
, Volume 43
, Pages 246-347
- Simulating Enzyme Reactivity: Computational Methods in Enzyme Catalysis, Contents
, 2017
, Pages P011-P021
- Iron-Containing Enzymes: Versatile Catalysts of Hydroxylation Reactions in Nature, Chapter 2 Non-heme Iron-Dependent Dioxygenases: Mechanism and Structure. Timothy D. H. Bugg
, 2011
, Pages 42-66
- Organophosphorus Chemistry: Volume 48, Quinquevalent phosphorus acids. Piotr Bałczewski, Joanna Skalik
, 2019
, Volume 48
, Pages 234-379
- Electron Paramagnetic Resonance: Volume 22, High-field EPR of bioorganic radicals. Stefan Stoll
, 2011
, Volume 22
, Pages 107-154