Nanotechnology for forest products, Part 1.Editor's Note Editor's Note (foaled in 1993 in Kentucky) is an American thoroughbred Stallion racehorse. He was sired by 1992 U.S. Champion 2 YO Colt Forty Niner, who in turn was a son of Champion sire Mr. Prospector and out of the mare, Beware Of The Cat. Trained by D. : This article is a result of the Forest, Wood and Paper Industry's Agenda 2020 program focused on providing the industry with technology for a robust and sustainable future. Nanotechnology is one of the key "platforms" discussed at Technology Summit II, held in May 2004. This article discusses the development of the Nanotechnology platform. Part 2 will appear in a later issue of Solutions! magazine. Nano-sized particles may be small, but for our industry they offer huge potential. Nanotechnology represents a major opportunity for the forest products industry to develop new products, substantially reduce processing costs, and open new markets in the coming decades. Our ability to view materials at atomic dimensions--to determine and alter how materials are constructed at nano- and atomic scales--provides the opportunity to develop new materials and products in unprecedented ways. In the past, materials scientists concentrated efforts on simple, single-crystals and homogeneous materials that were easier to understand and could be analyzed by the techniques of the time. We now have much improved tools to investigate and understand how wood, a composite cellular material, is synthesized syn·the·sized adj. 1. Relating to or being an instrument whose sound is modified or augmented by a synthesizer. 2. Relating to or being compositions or a composition performed on synthesizers or synthesized instruments. in a tree; how the molecular and nanoscale At nanometer size. Any device only a few nanometers in size is nanoscale. See nanotechnology and nanometer. components are assembled; and how this architecture and assembly controls material properties. We define nanotechnology as the manipulation of materials measuring 100 nanometers or less in at least one dimension. In addition, nanomaterials must display unique properties and characteristics that differ from bulk properties. At the one nanometer (nm) level, quantum mechanics quantum mechanics: see quantum theory. quantum mechanics Branch of mathematical physics that deals with atomic and subatomic systems. It is concerned with phenomena that are so small-scale that they cannot be described in classical terms, and it is rules; at dimensions above 100 nm, classical continuum mechanics Continuum mechanics is a branch of physics (specifically mechanics) that deals with continuous matter, including both solids and fluids (i.e., liquids and gases). The fact that matter is made of atoms and that it commonly has some sort of heterogeneous microstructure , physics, and chemistry dictate properties of matter. Between one and 100 nm a hybrid exists, and interesting things can happen. Mechanical, optical, electrical, magnetic, and a variety of other properties can behave quite differently, providing the opportunity to develop materials with higher strength, greater opacity Refers to being "opaque," which means to prevent light from shining through. For example, in an image editing program, the opacity level for some function might range from completely transparent (0) to completely opaque (100). , and enhanced electrical and magnetic performances, among many other qualities. The many thousands of wood-based products derived from our forests are ubiquitous and taken for granted Adj. 1. taken for granted - evident without proof or argument; "an axiomatic truth"; "we hold these truths to be self-evident" axiomatic, self-evident obvious - easily perceived by the senses or grasped by the mind; "obvious errors" in our everyday world--the hallmark of a great product and great material. Nanotechnology now offers the opportunity to re-invent the way we use wood and wood-based materials, and the industry that converts it to the myriad of products in use today. Nanotechnology can enable the development of a wide range of new or enhanced wood-based materials and products that offer cost-effective substitutes for non-renewable materials used in the manufacture of metallic, plastic, or ceramic products. By employing nanotechnology to revitalize re·vi·tal·ize tr.v. re·vi·tal·ized, re·vi·tal·iz·ing, re·vi·tal·iz·es To impart new life or vigor to: plans to revitalize inner-city neighborhoods; tried to revitalize a flagging economy. the forest products industry, we can strengthen one of America's core manufacturing competencies. The U.S. has a massive infrastructure in place for growing, harvesting and processing wood products, which provides a key employment base in almost every state. This infrastructure provides a fundamental strategic advantage to build on for preserving the global economic competitiveness of this industry. With this in mind, we can truly believe that forest-based material will be the material of the 21st Century. ROADMAP FOR PROGRESS In a first step toward reaching the goals of applying nanotechnology in the forest products industry, a workshop to develop a vision, explore opportunities, and determine research needs was convened on October 17-19, 2004, at the National Conference Center in Lansdowne, Virginia Lansdowne is an unincorporated planned community located near Leesburg, Virginia. It is north of State Route 7 and south of the Potomac River. A section of the Potomac Heritage Trail runs through Lansdowne. . More than 110 leading researchers with diverse expertise from industry, government laboratories, and academic institutions from North America North America, third largest continent (1990 est. pop. 365,000,000), c.9,400,000 sq mi (24,346,000 sq km), the northern of the two continents of the Western Hemisphere. and Europe attended. The workshop produced a document titled "Nanotechnology for the Forest Products Industry--Vision and Technology Roadmap The context of product management The existence of product managers in the product software industry indicates that software is becoming more and more commercialized as a standard product. ". This forest products industry roadmap is available for downloading on the TAPPI TAPPI Technical Association of the Pulp and Paper Industry website (www.tappi.org) as well as www.nanotechforest.org. Figure 1 summarizes the roadmap. Workshop participants identified some of the unique properties and characteristics that make wood lignocellulosic biopolymers an exciting avenue for nanotechnology research. These characteristics include: * Lignocellulosic biopolymers are some of the most abundant biological raw materials, have a nanofibrillar structure, have the potential to be made multifunctional, and can be controlled in self-assembly. * New analytical techniques An analytical technique is a method that is used to determine the concentration of a chemical compound or chemical element. There are a wide variety of techniques used for analysis, from simple weighing (gravimetric) to titrations (titrimetric)to very advanced techniques using adapted to biomaterials are allowing us to see the structure of wood in new ways. * Lignocelluloses as nanomaterials and their interaction with other nanomaterials are largely unexplored. Potential uses identified at the workshop for nanotechnology include developing intelligent wood- and paper-based products with an array of built-in nanosensors to measure forces, loads, moisture levels, temperature, pressure, and chemical emissions, as well as to detect attack by wood decay fungi Fungi (fŭn`jī), kingdom of heterotrophic single-celled, multinucleated, or multicellular organisms, including yeasts, molds, and mushrooms. The organisms live as parasites, symbionts, or saprobes (see saprophyte). and termites. Building functionality onto lignocellulosic surfaces at the nanoscale could open new opportunities for such things as pharmaceutical products, self-sterilizing surfaces, and electronic lignocellulosic devices. The high strength and flexibility of nanofibrillar cellulose cellulose, chief constituent of the cell walls of plants. Chemically, it is a carbohydrate that is a high molecular weight polysaccharide. Raw cotton is composed of 91% pure cellulose; other important natural sources are flax, hemp, jute, straw, and wood. offer the opportunity to make lightweight strong materials with greater durability. By comparison, carbon nanotubes See nanotube. have very high strength but are brittle (1). Use of nanodimensional-material building blocks will enable the assembly of functional materials and substrates with substantially higher strength properties, which will allow the production of lighter-weight products from less material and with less energy requirements. Significant improvements in a diverse range of properties and functionality will be possible, making existing products much more effective and enabling the development of many more new products. Nanotechnology can be used to improve processing of wood-based materials into paper and wood products by improving water removal; eliminating rewetting; reducing energy usage in drying; and tagging fibers, flakes, and particles to allow customized property enhancement in processing. AN R & D STRATEGY: TWO APPROACHES Nanotechnology research and development (R & D) strategies for the forest products industry encompass two broad approaches. Strategy I: The forest products industry can adopt nanotechnologies and nanomaterials developed by R & D efforts in other industry sectors, and deploy them into materials, processes and products it currently uses or produces. The expected gains The expected gain (or expected return) is the weighted-average most likely outcome in gambling, probability theory, economics or finance. Discrete scenarios In gambling and probability theory, there is usually a discrete set of possible outcomes. of this research direction will be in improving existing products and processes--with some minor-to-moderate modifications and additions. Strategy II: Nanotechnology R & D will develop completely new materials or product platforms using the improved knowledge of nanoscale structures and properties of materials used in the forest products industry. This direction potentially will lead to radically different products, processing techniques, and material applications, because the nanoscale properties of lignocellulose lig·no·cel·lu·lose n. A combination of lignin and cellulose that strengthens woody plant cells. and its nanoscale architecture have not been exploited to any great degree. The research challenges associated with these two broad strategies span a range of scientific focus areas. Challenges include: * Developing fundamental understanding of nanomaterials and analytical tools for measuring properties at the nanoscale * Developing new nanoscale building materials Building materials used in the construction industry to create . These categories of materials and products are used by and construction project managers to specify the materials and methods used for . * Developing nanotechnology for manufacturing applications * Creating nanomaterials by design. NANOMATERIALS BY DESIGN "Nanomaterials by design" is a uniquely solutions-based research goal. As described in the nanomaterials roadmap developed by the chemicals industry, "nanomaterials by design" refers to the ability to employ scientific principles in deliberately creating structures (e.g., size, architecture) that deliver unique functionality and utility for target applications." (2) This research area will focus on the assembly of building blocks to produce nanomaterials in technically useful forms, such as bulk nanostructured materials, dispersions, composites, and spatially resolved, ordered nanostructures. It will yield a new set of tools that can provide nearly limitless flexibility for precisely building material functions around end-use applications. Such a powerful, function-based design capability holds the potential to solve critical unmet needs throughout society. Techniques being developed in the areas of self-assembly and directed self-assembly will allow us to use the building blocks available in the forest products industry to manufacture materials with radically different performance properties. CONCLUSIONS The "Nanotechnology for the Forest Products Industry--Vision and Technology Roadmap" document provides a way to systematically focus the many potential and diverse efforts in nanotechnology for the forest products industry. To efficiently and effectively advance the nanotechnology R & D agenda for the forest products industry, the roadmap should be a starting point Noun 1. starting point - earliest limiting point terminus a quo commencement, get-go, offset, outset, showtime, starting time, beginning, start, kickoff, first - the time at which something is supposed to begin; "they got an early start"; "she knew from the for further engaging key stakeholders Stakeholders All parties that have an interest, financial or otherwise, in a firm-stockholders, creditors, bondholders, employees, customers, management, the community, and the government. in dialogue, consensus building, and partnership building. The following are some of the key stakeholder stakeholder n. a person having in his/her possession (holding) money or property in which he/she has no interest, right or title, awaiting the outcome of a dispute between two or more claimants to the money or property. groups: * Forest products industry -- primary producers, converters, suppliers, and collective industry groups such as the American Forest and Paper Association (AF & PA). * Federal departments and agencies -- the USDA USDA, n.pr See United States Department of Agriculture. Forest Service, USDA Cooperative State Research, Education and Extension Service, Department of Energy and its national laboratories, National Science Foundation, and National Institute of Science and Technology The National Institute of Science and Technology (abbrv NIST) is an engineering college in Pallur Hills Orissa, 12 km from the city of Berhampur. It was started in 1996 by a few NRIs, some of whom belonged to Orissa. . * University and research institute/laboratory communities (both national and international) -- These include universities with forest products and pulp and paper departments and programs, umbrella university groups such as the Pulp and Paper Education and Research Alliance and the Society of Wood Science and Technology, and research institutes and laboratories focused on the forest products industry; as well as the established research communities already involved in nanotechnology research and development. A critical step in moving nanotechnology for the forest products sector forward is to gain consensus among stakeholders on what the specific focus should be for the short term, mid term, and long term. It is important to focus these efforts on high-impact, high-priority activities that will be the most critical to commercial producers of nanomaterials and nanoproducts. Lastly, the industry must view the nanotechnology roadmap as dynamic, living document. Every three to five years, the Years, The the seven decades of Eleanor Pargiter’s life. [Br. Lit.: Benét, 1109] See : Time industry should convene CONVENE, civil law. This is a technical term, signifying to bring an action. experts to reexamine re·ex·am·ine also re-ex·am·ine tr.v. re·ex·am·ined, re·ex·am·in·ing, re·ex·am·ines 1. To examine again or anew; review. 2. Law To question (a witness) again after cross-examination. the roadmap--experts who will review the industry's progress, redefine goals, and assess accomplishments in light of resources available and resources expended ex·pend tr.v. ex·pend·ed, ex·pend·ing, ex·pends 1. To lay out; spend: expending tax revenues on government operations. See Synonyms at spend. 2. .
VISION FOR NANOTECHNOLOGY IN THE FOREST PRODUCTS INDUSTRY
To sustainably meet the needs of present and future generations for
wood-based materials and products by applying nanotechnology science and
engineering to efficiently and effectively capture the entire range of
values that wood-based lignocellulosic materials are capable of
providing.
VISION ELEMENTS
** Novel lignocellulosic nanomaterials, produced from our renewable
forest resource base, are routinely used by a variety of
manufacturers as economically viable alternatives to non-renewable,
energy-intensive materials such as metals, plastics and ceramics
** Nanoscale architecture and properties of lignocellulosics are
utilized to improve the manufacturing process efficiency and product
functionality of a wide array of commercial products needed by human
kind
** Nanoscale materials and nanotechnology are used to achieve the most
efficient and effective use of forest-based materials and manufacture
of all forest products
** Nanotechnology has enabled the U.S. forest products industry to
revolutionize manufacturing processes and product offerings, making
it globally competitive and a key contributor to sustainable,
environmentally-safe economic growth in the U.S. and around the world
STRATEGY
Adapt and deploy Create and deploy
existing nanotechnologies novel new nanotechnologies
** Reduces costs by leveraging existing ** Exploits the unique
capital investment nanoscale components and
** Shortest time for deployment properties of wood
** Exploits existing nanotechnology ** Enables new generations of
knowledge base cost-effective products and
** Adds value and functionality to materials
existing products ** Exploits the full potential
of wood as a material
** Achieves maximum efficiency
of material use
PRIORITY ACTIVITIES
** Develop consensus on nanotechnology R & D priorities for the forest
products industry with respect to
-- Liberating nanodimensional cellulose fibrils
-- Using nanomaterials, nanosensors, and other applications of
nanotechnology to improve the raw material and energy efficiency
of conversion processes
-- Achieving directed design of biopolymer nanocomposites
-- Developing biomimetic processes for synthesizing lignocellulosic-
based nanomaterials
-- Utilizing self-assembly of nanodimensional building blocks for
functional structures and coatings
-- Exploiting the nanoscale architecture of lignocellulosics
-- Biofarming lignocellulosic materials with unique multifunctional
properties
** Develop a portfolio of short-, mid-, and long-term R & D that is
focused on high-impact, high priority activities most critical to
commercial producers of nanomaterials and nanoproducts
** Link the forest products sector R & D community with the broader
community of nanotechnology R & D
** Establish a $40-$60 million per year nanotechnology R & D program
oriented towards forest-based materials and manufacturing processes
Figure 1: Overview of the Forest Products Nanotechnology Roadmap.
IN THIS ARTICLE, YOU WILL LEARN: * The wide opportunities offered by nanotechnology research. * Two research strategies for capitalizing on these opportunities. ADDITIONAL RESOURCES: * To download "Nanotechnology for the Forest Products Industry--Vision and Technology Roadmap", visit www.tappi.org or www.nanotechforest.org. * Home page of the National Nanotechnology Initiative The National Nanotechnology Initiative is an American federal nanoscale science, engineering, and technology research and development program. Initiative participants (cited below) state that its four goals are to (2) Refers to the nanotech industry in general. See nanotechnology. (3) See iPod nano. .gov. FOOTNOTES: 1. www.bimac.kth.se/News/Nyhetsbrev_14-04.pdf 2. www.chemicalvision2020.org/nanotechnology.html ABOUT THE AUTHORS: Theodore Wegner is assistant director, USDA Forest Service, at the Forest (Naut.) at the fore royal masthead; - said of a flag, so raised as a signal for sailing, etc. See also: Fore Products Laboratory in Madison, Wisconsin Madison is the capital of the U.S. state of Wisconsin and the county seat of Dane County. It is also home to the University of Wisconsin–Madison. The 2006 population estimate of Madison was 223,389, making it the second largest city in Wisconsin, after Milwaukee, and , USA. Contact him by email at twegner@fs.fed.us. [ILLUSTRATION OMITTED] Phil Jones
Philip D. Jones (1952-) is a climatologist at the University of East Anglia, notable for maintaining of the time series of the instrumental temperature record is director, technical marketing and new ventures, at Imerys, Roswell, Georgia Roswell is a city located in northern Fulton County, Georgia. As of the 2000 census, the city had a total population of 79,334. Census Estimates of 2005 show a population of 98,137. Residents of Roswell are referred to as Roswellians. , U.S. Contact him by email at pjones@imerys.com. [ILLUSTRATION OMITTED] |
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