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- 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
- Green Materials for Sustainable Water Remediation and Treatment, CHAPTER 7 Nanomaterials for Water Remediation. Deepti Goyal, Geeta Durga, Anuradha Mishra
, 2013
, Pages 135-154
- 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
- Inorganic Two-dimensional Nanomaterials: Fundamental Understanding, Characterizations and Energy Applications, CHAPTER 5 Liquid Phase Synthesis of Two-dimensional Crystals: from Top-down to Bottom-up. Hui Wang, Wei Shao, Shichuan Chen, Xiaodong Zhang
, 2017
, Pages 126-152
- Environmental Radiochemical Analysis II, Simultaneous determination of long-lived radionuclides in environmental samples. Peter Warwick, N. Vajda, Zs. Molnár, É. Kabai, Sz. Osváth
, 2003
, Pages 185-196
- Principles of Environmental Chemistry, Chapter 3 Chemistry of Freshwaters. Margaret C. Graham, John G. Farmer
, 2007
, Pages 80-169
- Quantum Tunnelling in Enzyme-Catalysed Reactions, Chapter 6 Beyond Tunnelling Corrections: Full Tunnelling Models for Enzymatic C–H Activation Reactions. Judith P. Klinman
, 2009
, Pages 132-160
- Persulfate-based Oxidation Processes in Environmental Remediation, Chapter 1 Methods of Persulfate Activation for the Degradation of Pollutants: Fundamentals and Influencing Parameters. J. Saien, F. Jafari
, 2022
, Pages 1-59
- Evolution's Destiny: Co-evolving Chemistry of the Environment and Life, Chapter 6 Trace Elements in the Evolution of Organisms and the Ecosystem*
, 2012
, Pages 203-250
- Resource Recovery from Wastes: Towards a Circular Economy, Chapter 8 Potential Application of Direct and Indirect Iron Bioreduction in Resource Recovery from Iron Oxide-bearing Wastes. M. Roberts, A. Weightman, D. J. Sapsford
, 2020
, Pages 192-212