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Overview
Advances in physics, molecular biology, and computer science are converging on the capacity to control, with molecular precision, the structure and function of matter. These twenty original contributions provide the first broad-based multidisciplinary definition and examination of the revolutionary new discipline of molecular engineering, or nanotechnology. They address both the promise as well as the economic, environmental, and cultural challenges of this emerging atomic-scale technology.Leaders in their field describe current technologies that feed into nanotechnology - atomic imaging and positioning, protein engineering, and the de novo, design and synthesis of self-assembling molecular structures. They present development strategies for coordinating recent work in chemistry, biotechnology, and scanning-probe microscopy in order to successfully design and engineer molecular systems. They also explore advances in molecular and quantum electronics as well as reversible computational systems and the fundamental physical constraints on computation. Additional chapters discuss research efforts in Japan and present the prospects of nanotechnology as seen from the perspective of a microtechnologist.The final section looks at the implications of success, including the prospects of enormous computational power and the radical consequences of molecular mechanical systems in the fields of medicine and life extension.BC Crandall is Cofounder and Vice President of Prime Arithmetics, Inc.Contributors: Robert Birge. Federico Capasso. BC Crandall. K. Eric Drexler. Gregory Fahy. Richard Feynman. John Foster.
Tracy Handel. Bill Joy. Arthur Kantrowitz. Joseph Mallon. Norman Margolus. Ralph Merkle. Lester Milbrath. Gordon Tullock. Hiroyuki Sasabe. Michael Ward.
Synopsis
Advances in physics, molecular biology, and computer science are converging on the capacity to control, with molecular precision, the structure and function of matter.
Booknews
Interdisciplinary in nature, nanotechnology coordinates recent work in biotechnology, scanning-probe microscopy, atomic imaging, and protein engineering. Advances in technology will enable scientists to build atomic-scale electronic circuits and machines, producing, for example, robots that could travel through the body performing surgery on damaged cells. Potential for use and abuse is examined in these 20 original papers. Includes eight pages of color plates. Annotation c. Book News, Inc., Portland, OR (booknews.com)