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This textbook provides a comprehensive overview of biomimetics and biologically inspired materials, capturing the essence of innovation that draws inspiration from nature. Featuring diverse examples of biomimetics, the book explores surfaces exhibiting characteristics such as roughness-induced super-phobicity/philicity, self-cleaning mechanisms, antifouling properties, low drag, reversible adhesion, high hardness, and mechanical toughness. It also covers phenomena like water harvesting, purification, insect locomotion, and piercing. The book emphasizes durable materials and surfaces with a…mehr
This textbook provides a comprehensive overview of biomimetics and biologically inspired materials, capturing the essence of innovation that draws inspiration from nature. Featuring diverse examples of biomimetics, the book explores surfaces exhibiting characteristics such as roughness-induced super-phobicity/philicity, self-cleaning mechanisms, antifouling properties, low drag, reversible adhesion, high hardness, and mechanical toughness. It also covers phenomena like water harvesting, purification, insect locomotion, and piercing. The book emphasizes durable materials and surfaces with a strong focus on the Lotus Effect, superoleophobic/philic surfaces, anti-biofouling, water purification, oil-water separation, shark skin-inspired low-drag surfaces, gecko-inspired reversible adhesion, nanofabrication, water-harvesting, and mosquito-inspired painless piercing.
This is the first textbook on biomimetics and bioinspired surfaces. It is tailored for undergraduate or graduate students of materials science, chemistry, physics, and biology, and serves as an excellent resource for a one-semester course in biomimetics/bioinspiration while also functioning as a valuable textbook for applied nanotechnology courses. Accessible to both novices and experts alike, as well as practitioners, solution seekers, and the intellectually curious, this book is poised to contribute to the advancement of biomimetics, fostering a deeper understanding of nature's design brilliance and its transformative potential in materials science.
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Autorenporträt
Prof. Bharat Bhushan is an Academy Professor (San Jose, CA), and has served as an Ohio Eminent Scholar and The Howard D. Winbigler Professor in the College of Engineering, Director of the Nanoprobe Laboratory for Bio- & Nanotechnology and Biomimetics (NLB2), and affiliated faculty in John Glenn College of Public Affairs at the Ohio State University, Columbus, Ohio. He received an M.S. in mechanical engineering from the Massachusetts Institute of Technology in 1971, an M.S. in mechanics and a Ph.D. in mechanical engineering from the University of Colorado at Boulder in 1973 and 1976, respectively, an MBA from Rensselaer Polytechnic Institute at Troy, NY in 1980, Doctor Technicae from the University of Trondheim at Trondheim, Norway in 1990, a Doctor of Technical Sciences from the Warsaw University of Technology at Warsaw, Poland in 1996, Honorary Doctor of Science from the National Academy of Sciences, Gomel, Belarus in 2000, University of Kragujevac, Serbia in 2011, and University of Tyumen, Russia in 2019. He is a registered professional engineer. In 2013-14, he served as ASME/AAAS Science & Technology Policy Fellow, House Committee on Science, Space & Technology, United States Congress, Washington, DC. He has served as Expert Investigator on IP related issues in the U.S. and International Courts. His research interests are in Fundamental studies in the interdisciplinary areas of Bio/nanotribology/nanomechanics, Nanomaterials Characterization, Scanning Probe Techniques, Magnetic Storage, Bio/nanotechnology, Nanomanufacturing, Bioinspired Liquid Repellency, Self-cleaning, Anti-icing, Anti-fouling, and Water Harvesting, Science and Technology Policy. He is an internationally recognized expert of bio/nanotribology and bio/nanomechanics using scanning probe microscopy, and biomimetics. He is considered by some one of the pioneers of tribology and mechanics of magnetic storage devices, nanotribology, green tribology, and biomimetics. He had introduced the word nanotribology in the title of a Nature paper in 1995 and in the title of a first book on green tribology in 2010. He is one of the most prolific authors. He has authored 10 scientific books, 100+ handbook chapters, and 900+ scientific papers. He is Google Scholar's one of 1248 Highly Cited Researchers in All Fields, h-index - 145+ with 100 k+ citations; Scopus's one of 401 Scientists for Career-long Citation Impact Across All Fields out of over 8 million scientists from around world; 4th Highly Cited Researcher in Mechanical Eng.; 149th Most Cited in Materials Science in the World; and ISI Highly Cited Researcher in Materials Science and in Cross-field Category. His research was listed as one of the Top Ten Science Stories of 2015. He has also edited more than 60 books and holds more than 25 U.S. and foreign patents. He is co-editor of
Springer NanoScience and Technology Series and co-editor of Microsystem Technologies. He has given more than 400 invited presentations including 300+ keynote/plenary addresses at major international conferences on six continents. He delivered a TEDx 2019 lecture on Lessons from Nature.
His biography has been listed in over two dozen Who's Who books including Who's Who in the World. He has received more than two dozen awards for his contributions to science and technology from professional societies, industry, and U.S. government agencies including International Tribology Gold Medal and Institution of Chemical Engineers (UK) Global Award for bioinspired surfaces. He received NASA's Certificate of Appreciation to recognize the critical tasks performed in support of President Reagan's Commission investigating the Space Shuttle Challenger Accident. He is also the recipient of various international fellowships including the Alexander von Humboldt Research Prize for Senior Scientists, Max Planck Foundation Research Award for Outstanding Foreign Scientists, and Fulbright Senior Scholar Award. He is foreign member of the International Academy of Engineering (Russia), Byelorussian Academy of Engineering and Technology and the Academy of Triboengineering of Ukraine, honorary member of the Society of Tribologists of Belarus and STLE, fellow of ASME, IEEE, and the New York Academy of Sciences, and member of ASEE, Sigma Xi and Tau Beta Pi.
He is an accomplished organizer. He organized the First Symposium on Tribology and Mechanics of Magnetic Storage Systems in 1984 and the First Int. Symposium on Advances in Information Storage Systems in 1990, both of which are now held annually. He organized two international NATO institutes in Europe. He is founder of an ASME Information Storage and Processing Systems Division founded in 1992 and served as founding chair during 1993-1998.
He has previously worked for Mechanical Technology Inc., Latham, NY; SKF Industries Inc., King of Prussia, PA; IBM, Tucson, AZ; and IBM Almaden Research Center, San Jose, CA. He has held visiting professorship at University of California at Berkeley, University of Cambridge, UK, Vienna University of Technology, Austria, University of Paris, Orsay, ETH Zurich, EPFL Lausanne, Univ. of Southampton, UK, Univ. of Kragujevac, Serbia, Tsinghua Univ., China, Harbin Inst., China, Indian Institute of Science, Bengaluru, BITS Pilani and Hyderabad, and KFUPM, Saudi Arabia.
Inhaltsangabe
Introduction.- Roughness-Induced Superliquiphilic/phobic Surfaces: Wetting States and Lessons from Nature.- Modeling of Contact Angle for a Liquid in Contact with a Rough Surface for Various Wetting Regimes.- Plant Leaf Surfaces in Living Nature.- Nanofabrication Techniques used for Superhydrophobic Surfaces.- Strategies for Micropatterned, Nanopatterned, and Hierarchically Structured Lotus-like Surfaces.- Fabrication and Characterization of Mechanically Durable Superhydrophobic Surfaces.- Strategies for Superliquiphobic/philic Surfaces.- Adaptable Fabrication Techniques for Mechanically Durable Superliquiphobic/philic Surfaces.- Fabrication and Characterization of Mechanically Durable Superliquiphobic Surfaces.- Shark-Skin Surface for Fluid-Drag Reduction in Turbulent Flow.- Gecko Adhesion.- Bio- and Inorganic Fouling.- Bioinspired Strategies for Water Collection and Water Purification.- Mosquitoes' Locomotion and Painless Piercing.
Introduction.- Roughness-Induced Superliquiphilic/phobic Surfaces: Wetting States and Lessons from Nature.- Modeling of Contact Angle for a Liquid in Contact with a Rough Surface for Various Wetting Regimes.- Plant Leaf Surfaces in Living Nature.- Nanofabrication Techniques used for Superhydrophobic Surfaces.- Strategies for Micropatterned, Nanopatterned, and Hierarchically Structured Lotus-like Surfaces.- Fabrication and Characterization of Mechanically Durable Superhydrophobic Surfaces.- Strategies for Superliquiphobic/philic Surfaces.- Adaptable Fabrication Techniques for Mechanically Durable Superliquiphobic/philic Surfaces.- Fabrication and Characterization of Mechanically Durable Superliquiphobic Surfaces.- Shark-Skin Surface for Fluid-Drag Reduction in Turbulent Flow.- Gecko Adhesion.- Bio- and Inorganic Fouling.- Bioinspired Strategies for Water Collection and Water Purification.- Mosquitoes' Locomotion and Painless Piercing.
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