1st Edition

Nature's Nanostructures

Edited By Amanda S. Barnard, Haibo Guo Copyright 2012
    604 Pages 48 Color & 109 B/W Illustrations
    by Jenny Stanford Publishing

    Natural nanomaterials and nanotechnologies are all around us, which inevitably leads to these questions: What are these natural nanomaterials made of? Where can we find them? What can they do? Answering these questions will facilitate new and environmentally friendly ways of creating and manipulating nanoscale materials for the next generation of new technologies. A truly multidisciplinary resource, this book brings together studies from astronomy, physics, chemistry, materials science, engineering, geology and geophysics, environmental science, agricultural science, entomology, molecular biology, and health and provides an invaluable resource for learning how various scientists approach similar problems.

    Preface, H. B. Guo and A. S. Barnard
    Naturally Occurring Inorganic Nanoparticles: General Assessment and a Global budget for One of Earth’s Last Unexplored Major Geochemical Components, M. F. Hochella Jr., D. Aruguete, B. Kim, and A. S. Madden
    Uncovering the Physical and Chemical Properties of Nanominerals and Mineral Nanoparticles, R. L. Penn
    Nanostructures of Natural Iron Oxide Nanoparticles, H. Konishi, H. F. Xu, and H. B. Guo
    Thermodynamic Modeling of FeS2, S. P. Russo and A. Hung
    Noble Metal Nanoparticles in Ore Systems, R. Hough, M. Reich, and R. Noble
    Diamondoids, C. Bostedt, L. Landt, T. Möller, J. E. Dahl, and R. M. K. Carlson
    Role of Nanopores in Regulating Reactivity and Transport of Uranium in Subsurface Sediments, H. F. Xu
    Biomineralization of Natural Nanomaterials, J. Wu, J. M. Yao, and Y. R. Cai
    Magnetic Nanoparticles in Magnetosomes, A. Körnig and D. Faivre
    Nanoscale Magnetoreceptors in Birds, I. A. Solov’yov and W. Greiner
    Nucleation and Growth of Biomaterials: the Role of Simulations for Understanding, J. H. Harding, C. L. Freeman, D. Quigley, and P. M. Rodger
    Photonic Crystals in Beetles, A. E. Seago and V. Saranathan
    Nanoparticles That Are Out of This World, F. J. M. Rietmeijer and J. A. Nuth
    Large Molecules and Nanograins in Space, A. G. G. M. Tielens
    Nanoparticles in the Solar System, I. Mann
    Formation and Growth of Atmospheric Aerosol Particles, T. Petäjä, M. Dal Maso, M. Sipilä, I. Riipinen, Veli-Matti Kerminen, and M. Kulmala
    Engineered Nanoparticles and the Environment: Inadvertently and Intentionally Produced, P. Biswas, W.-J. An, and W.-N. Wang
    Ultrafine Particles on and Near Roadways, Y. F. Zhu
    Allophane and Imogolite Nanoparticles in Soil and Their Environmental Applications, G. D. Yuan and S.-I. Wada
    Transformation of Engineered Nanostructures in the Natural Environment, P. Bhattacharya, E. Salonen, and P. C. Ke


    Haibo Guo is a postdoctoral fellow and an early-career researcher at Virtual Nanoscience Laboratory (VNLab), led by Dr. Amanda Barnard. He received his BS in 2001 and PhD in 2006 from Tsinghua University, Beijing, China. His research interests include modeling and simulation of surfaces and interfaces in environmental and energy sciences.

    Amanda S. Barnard is leader of the Virtual Nanoscience Laboratory at the Commonwealth Scientific and Industrial Research Organisation (CSIRO), Australia’s national science agency. She has a BSc and PhD in physics from RMIT University, Australia, and has held research positions at Argonne National Laboratory (USA) and the University of Oxford (UK). Using thermodynamic theory and first principles computer simulations, she is a pioneer in the mapping of nanomorphology and the environmental stability of nanomaterials (thermodynamic cartography) and in the development of structure/property relationships for predicting the reliability of nanoparticles in high-performance applications.

    "At a time when we are concerned about the potential hazards of engineered nanomaterials, this book gives a timely and delightful overview of the variety of nanoparticles that exist in our environment — from noble metal nanoparticles in ore systems and nanodust in the solar system to magnetic nanoparticles in homing pigeons and photonic crystals in beetles. It is an enjoyable and a useful companion for anyone interested in knowing about the potential hazards of nanomaterials and those seeking inspiration from nature to create functional materials."
    —Dr Ai Lin Chu - Senior Editor, Nature Nanotechnology