This analysis of Mexico’s nanotechnology policies utilizes indicators developed by the Organization for Economic Co-operation and Development, which in 2008 conducted a pilot survey comparing the nanotechnology policies of 24 countries. In this paper, we apply the same questionnaire to the Mexican case, adding business information derived from the National Institute of Statistics and Geography survey on nanotechnologies, also an OECD instrument.

By exploring whether nanotechnologies have the potential to generate green innovations, we consider the paradox between the negative and positive side-effects that could come with the development of nanotechnologies. Starting from the conceptual framework of green product innovation, the potential green innovation activity of more than 14,000 firms of the nanotech sector is investigated. Using a query-search method, their patenting activity is explored. Results first show that there is an increasing trend toward the creation of fundamental green knowledge by firms (...) involved in nanotechnologies; second, they demonstrate that energy efficiency is the main driver of green knowledge creation in the sector and third they reveal the main characteristics of nanotech firms creating green knowledge. Beyond their contribution to the debate between positive and negative outcomes of nanotechnology developments, these results also enrich the conceptual framework of green product innovation—a key route to achieving sustainability at the same time as growth. (shrink)

Current nanotechnology regulation is focussed on risks. On the other hand, technical guidelines and other soft law tools are increasingly replacing hard law. This risk reduction approach does not seem to be fully aligned with open principles like sustainable nanotechnology. Indeed, risk optimization tends to be rather a continuous process than a way to settle ultimate lists of risks. There is therefore a need for a more dynamic view: Life cycle assessment contributes to add momentum and context to (...) the models. However, a complementary perspective is here suggested, based on information technologies: nanotechnology platforms. Platforms for nanotechnology governance are supposed to complement and enhance the nano-regulation, adding risk assessment and management. These platforms are mainly offering information, coordination, and context or situational awareness. More recently, some informal platforms appear to play a, certainly limited but still clear, co-regulatory role. Can these informal platforms play a relevant role in nanotechnology governance? In the context of the EU Better Regulation strategy, why not envision some of these informal platforms as future co-regulation tools? The main goal of this paper is to start a discussion on the requirements these informal co-regulatory platforms should fulfill before their hypothetical inclusion in a future better regulation toolbox. (shrink)

Modern microscopes create a capacity to see and act at the scale where unassisted human senses are powerless. Images of nanoscale phenomena represent a world that effectively intervenes in human life while remaining distant and ineffable. This combination of an unbridgeable distance between man and technology with a real power of the latter over the human condition is characteristic, not only of nanotechnology, but also of the theology of sacred icons that mediate in the knowledge of divine reality. We (...) draw an anthropological analogy between nanotechnological images and sacred icons, and we employ it to analyze the functioning of such images in society. The questions that we study include: a) the art of mediation in representing the ineffable and its necessity; b) the effects provoked by such images; c) primitive comprehension of nanoscale images. This work has repercussions for a wide variety of disciplinary accounts and practices, from the anthropologist and the philosopher to the laboratory scientist, the art critic, and the engineer who conceives and designs nanoscale instruments. (shrink)

It is argued that the social significance of nanotechnologies should be understood in terms of the politics and ethics of uncertainty. This means that the uncertainties surrounding the present and future development of nanotechnologies should not be interpreted, first and foremost, in terms of concepts of risk. It is argued that risk, as a way of managing uncertain futures, has a particular historical genealogy, and as such implies a specific politics and ethics. It is proposed, instead, that the concepts of (...) contingency and of finitude must be central to any understanding of the ethical significance of nanotechnologies, as these concepts can be used to understand the basis of recent work in science and technology studies, and the sociology of knowledge more widely, which details the multi-dimensional social nature of technological uncertainty. (shrink)

Parallel to the public discussion on the benefits and risks of nanotechnology, a debate on the ethics of nanotechnology has begun. It has been postulated that a new “nano-ethics” is necessary. In this debate, the — positive as well as negative — visionary and speculative innovations which are brought into connection with nanotechnology stand in the foreground. In this contribution, an attempt is made to discover new ethical aspects of nanotechnology in a more systematic manner than (...) has been the case. It turns out that there are hardly any completely new ethical aspects raised by nanotechnology. It is much rather primarily a case of gradual shifts of emphasis and of relevance in questions which, in principle, are already known and which give reason for ethical discussions on nanotechnology. In a certain manner, structurally novel ethical aspects arise through the important role played by visions in the public discourse. New questions are also posed by the fact that previously separate lines of ethical reflection converge in the field of nanotechnology. The proposal of an independent “nano-ethics”, however, seems exaggerated. (shrink)

Far-reaching promises made by nanotechnology have raised the question of whether we are on the way to understanding human beings more and more as belonging to the realm of technology. In this paper, an increasing need to understand the technological re-conceptualization of human beings is diagnosed whenever increasingly “technical” interpretations of humans as mechanical entities are disseminated. And this can be observed at present in the framework of nanobiotechnology, a foremost “technical” self-description where a technical language is adopted. The (...) arena in which the decision is made on increasing the use of technological understanding to define mankind will not be found in the surgery room in which one works with implants, nor the NBIC-laboratory, in which “nerve plugs” are supposed to be developed. The thesis of this paper is that such arena is rather related to the manner in which concepts of humanity are associated with it, how we think and talk about ourselves, and which consequences we draw out of it. (shrink)

Lately, nanotechnology has become one of the main topics in the debates regarding what has been called the _Next Industrial Revolution_ within what are known as _emergent technologies_. This paper contains a comparative analysis of the different philosophical groundings, arguments and principles invoked in the official ethical approaches proposed by each of two of the main Western communities. By _official ethical approaches_ or _official positions_ we mean the opinions officially expressed by the government institutions about how ethical considerations prompted (...) by nanotechnologies should be tackled. The analysis is based, then, on the official points of view, expressed through two documents, namely two official releases issued by governmental offices or institutions in both communities, Europe and the United States of America, and considered by the authors as representative of the official opinions of the governmental institutions in each society. (shrink)

Because of the overly market-oriented way in which technological development is carried out, there is a great amount of hubris in regard to how scientific and technological achievements are used in society. There is a tendency to exaggerate the potential commercial benefits and willfully neglect the social, cultural, and environmental consequences of most, if not all innovations, especially in new fields such as nanotechnology. At the same time, there are very few opportunities, or sites, for ensuring that nanotechnology (...) is used justly and fairly, or for that matter, contribute to alleviating any of the wide variety of injustices that exist in the world. Most of the public authorities responsible for the development and application of science and technology are uninterested and unwilling to “assess” the implications of nanotechnology, and there are few, if any spaces in the broader culture for assessment to take place. Within the various “social movements” that are, in one way or another, concerned with issues of global justice, there is as yet little interest in nanotechnology. By examining the relations between nanotechnology and the emerging movement for global justice this article attempts to understand the enormous gap between the potential for science and technology to do good and the actual ways in science and technology get developed, and what, if anything, might be done to help close the gap in relation to nanotechnology, so that it might better be able to contribute to global justice. (shrink)

In this paper, we respond to a critique by Erik Thorstensen of the ‘Deepening Ethical Engagement and Participation in Emerging Nanotechnologies’ project concerning its ‘realist’ treatment of narrative, its restricted analytical framework and resources, its apparent confusion in focus and its unjustified contextualisation and overextension of its findings. We show that these criticisms are based on fairly serious misunderstandings of the DEEPEN project, its interdisciplinary approachand its conceptual context. Having responded to Thorstensen’s criticisms, we take the opportunity to clarify and (...) develop our approach to narrative. We articulate the need for novel, theoretically robust approaches to the formation of public attitudes which transcend the limitations of both survey-based approaches—which remain wedded to methodological individualism and which presume that individuals hold distinct and relatively stable attitudes and preferences—and interactionist approaches to public talk, which focus too strongly on individuals-in-interaction as reasoning agents and which ignore the constitutive role of culture and discourse in the formation of public opinion. We suggest that our use of narrative can help to better understand the process through which public attitudes to emerging technology develop out of interactive an engagement with wider cultural arguments and accounts of science and technology. We finish by pointing to parallel developments in social thought—from Charles Taylor’s treatment of social imaginaries to recent developments in post-Bourdieuian cultural sociology—as related projects in understanding the cultural resources and grammars that provide the conceptual infrastructure for modern social life. (shrink)

The present paper contributes to a growing body of philosophical, sociological, and historical analyses of recent nanoscale science and technology. Through a close examination of the origins of contemporary nanotech efforts, their ambitions, and strategic uses, it also aims to provide the basis for a critical theory of emerging technologies more generally, in particular in relation to their alleged convergence in terms of goals and outcomes. The emergence, allure, and implications of nanotechnology, it is argued, can only be fully (...) appreciated if one looks beyond its immediate technical and scientific payoffs to its infrastructural and ideological aspects. While nanotechnology aims to reshape the world 'atom by atom', its most tangible result so far has been the profound effect it has had on the organization of science-at-large, not least as the result of a thorough reshaping of the 'soft' funding infrastructure that places signifi cant constraints on the pursuit of long-term scientific research programmes. The paper concludes by noting a persistent, and perhaps deepening, gap between the utopian visions of some of nanotechnology's most vocal proponents and the realities of contemporary nanotechnological practice, which continue to be marked by global inequities. (shrink)

This article examines nanotechnology within the context of the public interest. It notes that though nanotechnology research and development investment totalled US$9.6 billion in 2005, the public presently understands neither the implications nor how it might be best governed. The article maps a range of nanotechnology dialogue activities under way within the United Kingdom, the United States, Germany, and Australia. It explores the various approaches to articulating public interest matters and notes a shift in the way in (...) which these governments, on the whole, appear to be attempting to manage nanotechnology “risks.” It argues that open and transparent policy deliberations and extensive public discourse will be pivotal to protecting the public interest, gaining public trust and acceptance of nanotechnologies. The article concludes that though governing emerging technologies in the public interest is not a new concept, nanotechnology does present additional challenges that must be addressed by the guardians of the public interest. (shrink)

This chapter contains sections titled: Using Nanomaterials Nanotechnology Computing and Robotics Predicting the Future of Technology.

ABSTRACT Nanotechnologies are an expression of the human ability to control and manipulate matter on a very small scale. Their use will enable an even and constant monitoring of human organisms, in a new and perhaps less invasive way. Debates at all levels – national, European and international – have pointed out the common difficulty of giving a complete, clear definition of nanotechnologies. This is primarily due to the variety of their components, to the fact that there is not just (...) one technology but several. The most significant medical applications of nanotechnologies are in the diagnostic and the therapeutic fields, eg biosensors and molecular imaging, providing diagnosis and drug delivery with no invasive methods involved. Like any other emerging field, such technologies imply new possibilities for improving health but, on the other hand, they are still at an experimental stage and therefore should be implemented under rigorous safety testing before going on general release. For this purpose, the ethical, legal and social implications (ELSI) of nanotechnologies have been elaborated by study groups, in order to develop solutions before the results of the tests are diffused into medical practice. The aim of this paper is to define some of the ethical issues concerning biomedical applications and to evaluate whether there is a need for new or additional guidelines and regulations. (shrink)

Nanotechnology has been a focal area of United States (US) Science and Technology policy since President Clinton's administration. The Unites States is investing more funds in nanotechnology research and development than any other nation. The US National Laboratory community and Sandia National Laboratories in particular is responding to their country's interest by generating exceptional Nano-based science and technology and focusing these efforts on national security and safety concerns. The United States and others are finding that the technological, safety, (...) ethical, economic, and policy considerations centered on nanotechnology are complex and interconnected. Further, that tomorrow's decision makers need an expanded educational background for them to make optimal choices concerning nanotechnology. Sandia National Laboratories responded to this need by initiating the National Institute for Nanotechnology Engineering (NINE). NINE is prototype educational effort designed to provide an exceptional foundation for the next generation of US nanotechnology decision makers. (shrink)

Is nanotechnology-based human enhancement morally permissible? One reason to question such enhancement stems from a concern for preserving our species. It is harder than one might think, however, to explain what could be wrong with altering our own species. One possibility is to turn to the environmental ethics literature. Perhaps some of the arguments for preserving other species can be applied against nanotechnology-based human enhancements that alter human nature. This paper critically examines the case for using two of (...) the strongest arguments in the environmental ethics literature to show that nanotechnology-based human enhancements are impermissible: 1) Our species, like many other naturally occurring species, has aesthetic value. So, nanotechnology-based human enhancements that alter our species should be prohibited. 2) Our species plays valuable ecological roles. Nanotechnology-based human enhancements that alter our species are likely to interfere with our species playing our ecologically valuable roles. So, such enhancements should be prohibited. Neither argument, ultimately, proves conclusive. The paper concludes, however, that considerations underlying both arguments may show us that some nanotechnology-based human enhancements are impermissible. (shrink)

Although some regulatory frameworks for the occupational health and safety of nanotechnology workers have been developed, worker safety and health issues in these laboratory environments have received less attention than many other areas of nanotechnology regulation. In addition, workers in nanotechnology labs are likely to face unknown risks and hazards because few of the guidelines and rules for worker safety are mandatory. In this article, we provide an overview of the current health and safety guidelines for (...) class='Hi'>nanotechnology laboratory workers by exploring guidelines from different organizations, including the Department of Energy Nanoscale Science Research Centers, Massachusetts Institute of Technology, the National Institutes of Health, the National Institute for Occupational Safety and Health, the Occupational Safety and Health Administration, Texas A&M University, and University of Massachusetts-Lowell. After discussing these current guidelines, we apply an ethical framework to each set of guidelines to explore any gaps that might exist in them. By conducting this gap analysis, we are able to highlight some of the weaknesses that might be important for future policy development in this area. We conclude by outlining how future guidelines might address some of these gaps, specifically the issue of workers’ participation in the process of establishing safety measures and the development and enforcement of more unified guidelines. (shrink)

A suite of technological advances based on nanotechnology has received substantial attention for its potential to affect privacy. Reports of the National Nanotechnology Initiative have recognized that the societal implications of nanotechnology will include better surveillance and information-gathering technologies. A variety of academic and popular publications have explained the potential effects of nanotechnology on privacy.The ways in which nanotechnology might affect privacy are varied. It may make current information technology better, make old information-gathering techniques more (...) reliable, or expand information-gathering into novel areas. My focus in this paper is on the privacy effects of one potential application of nanotechnology: sensors capable of detecting weapons agents or drugs—"nanosensors" or "sensors" for short. Nanotechnology may make possible small, accurate, and easy-to-use sensors to detect a variety of substances, including Chemical, Biological, Radiological, and Explosive agents , as well as drugs. Analyzing the potential effects on privacy of sensors can provide important insights into the nature and extent of privacy rights. (shrink)

Nanotechnology is science and engineering resulting from the manipulation of matter’s most basic building blocks: atoms and molecules. As such, nanotechnology promises unprecedented control over both the materials we use and the means of their production. Such control could revolutionize nearly every sector of our economy, including medicine, defense, and energy. Despite the relatively recent emergence of this field, it already enjoys generous federal funding and enthusiastic media coverage. The tenor of discourse on nanotechnology is changing, however, (...) as the voices of critics begin to sound about a host of concerns ranging from the societal impacts of improving human performance to the specter of environmental devastation and human disease. (shrink)

In this paper we examine the ethical implications of emerging Nanotechnologically Enhanced Combat Systems (or 'NECS'). Through a combination of materials innovation and biotechnology, NECS are aimed at making combatants much less vulnerable to munitions that pose a lethal threat to soldiers protected by conventional armor. We argue that increasing technological disparities between forces armed with NECS and those without will exacerbate the ethical problems of asymmetric warfare. This will place pressure on the just war principles of jus in bello, (...) by encouraging the resort to tactics that either (i) make it more difficult to respect these principles or (ii) directly violate them, by virtue of attacking non-combatants or creating disproportionate numbers of casualties without a clear military goal. (shrink)

Two criteria are proposed for characterizing the diverse and not yet perspicuous relations between nanotechnology and nature. They assume a concept of nature as that which is not made by human action. One of the criteria endorses a distinction between natural and artificial objects in nanotechnology; the other allows for a discussion of the potential nanotechnological modification of nature. Insofar as current trends may be taken as indicative of future development, nanotechnology might increasingly use the model of (...) nature as a point of orientation, while many of its products will continue to be clearly distinguished from nature. (shrink)

Nanotechnology is a subject about which we know less than we should, but probably more than we think we do at first glance. Like Defense Secretary Donald Rumsfeld's “known unknowns,” we have learned enough to know what we should be concerned with. Glimmers of risk cropped up recently when German authorities recalled a bathroom cleansing product, “MagicNano,” that purported to contain nanosized particles and was on the market for only three days. More than one hundred people suffered severe respiratory (...) problems – six of whom were hospitalized with pulmonary edema. Although a subsequent analysis of MagicNano found that the nanoliquid ingredient morphed in the production into “supersized” particles, the recall nonetheless turned a white hot spotlight on the risk of NSPs. Latching onto the risks posed to workers producing materials using nanotechnology, the Washington Post has labeled nanotechnology a “seat-of-thepants occupational health experiment.”. (shrink)

Managing the Nanotechnology Revolution: Consider the Malcolm Baldrige National Quality Criteria.................................................................................. 24..

Nanotechnology has been established as a priority research and policy focus, cutting across several R&D fields from pharmaceutics, food and electronics. The raise of nanotechnologies has been accompanied by an enduring uncertainty characterising the developments of the scientific knowledge related to this field, as well as the social trajectories of technological applications. Such a condition inevitably affects regulatory responses to such technologies, their development and their uses. This special issue addresses this junction between uncertainty and regulation. With no ambition (...) of providing a comprehensive assessment of such a complex issue, this collection of articles examines three relevant dimensions for understanding uncertainty in nanotechnology regulation, which can be useful entry points for further reflection and discussion: scientific uncertainty, regulatory fragmentation, social actors’ opinions about and attitudes to nanotechnology and regulation. (shrink)

Growing public concern and uncertainties surrounding emerging technologies suggest the need for socially-responsible behavior of companies in the development and implementation of oversight systems for them. In this paper, we argue that corporate social responsibility (CSR) is an important aspect of nanotechnology oversight given the role of trust in shaping public attitudes about nanotechnology and the lack of data about the health and environmental risks of nanoproducts. We argue that CSR is strengthened by the adoption of stakeholder-driven models (...) and attention to moral principles in policies and programs. In this context, we examine drivers of CSR, contextual and leadership factors that influence CSR, and strategies for CSR. To illustrate these concepts, we discuss existing cases of CSR-like behavior in nanotechnology companies, and then provide examples of how companies producing nanomedicines can exhibit morally-driven CSR behavior. (shrink)

This article argues that advances in nanotechnology in general, and lab-on-chip technology in particular, have the potential to benefit the developing world in its quest to control risks to human health and the environment. Based on the “risk society” thesis of Ulrich Beck, it is argued that the developed world must realign its science and technology policy priorities to meet some of the most pressing needs of humanity.

The European Union is strategically committed to the development of nanotechnology and its industrial exploitation. However, nanotechnology also has the potential to disrupt human health and the environment. The EU claims to be committed to the safe and responsible development of nanotechnology. In this sense, the EU has become the first governing body in the world to develop nanospecific regulations, largely due to legislative action taken by the European Parliament, which has compensated for the European Commission’s reluctance (...) to develop special regulations for nanomaterials. Nevertheless, divergences aside, political bodies in the EU assume that nanotechnology development is controllable and take for granted that both the massive industrial use of nanomaterials and a high level of environmental and health protection are compatible. However, experiences such as the European controversy over agri-food biotechnology, which somewhat delegitimized the regulatory authority of the EU over technological safety and acceptability, arguably show that controllability assumptions are contestable on the grounds of alternative socio-economic and cultural preferences and values. Recently developed inclusive governance models on safety and innovation, such as “Responsible Research and Innovation”, widely claim that a diversity of considerations and issues are integrated into R&D processes. Even so, the possibility of more radically alternative constitutions of socio-technical safety seems to be seriously limited by the current ideology of innovation and economic imperatives of the global, knowledge-based, capitalist economy. (shrink)

"Public engagement in science" is one of the buzzwords that, since 2000, has been used in nanotechnology programs. To what extent does public engagement disrupt the traditional relations between science and the public? This paper briefly contrasts the traditional model of science communication - the diffusionist model - that prevailed in the twentieth century and the new model - the participatory model - that tends to prevail nowadays. Then it will try to disentangle the assumptions underlying the public dialogue (...) initiated about nanotechnology, and conclude that nanotechnology actually develops a managerial model of society. (shrink)

Nanotechnology has been proclaimed as a new technology that could bridge the gap between the rich and the poor countries. Indeed many countries in Asia are fast developing their nanotechnological capabilities. However, one needs to take into consideration the role that culture and values play in adoption of nanotechnological policies, keeping in mind that technology and culture are deeply dependent on each other. I offer a criticism of the dependency theory in economic development, which says that there is an (...) unbridgeable divide that the poorer countries cannot cross. As with other powerful technologies, nanotechnology can create as many problems as solutions. I concentrate how insights from the Buddhist tradition, prevalent in Thailand, could illuminate how nanotechnology could be introduced into the lifeworld of a people. (shrink)

Food is a big business in the EU and nanofood products are beginning to be placed on the market. It is still unclear whether the absence of minimum regulation at a global level promotes or prevents the growth of a market in nanofood. However, the development of an adequate risk management policy in relation to food safety is a key concern for consumers. Importantly, the European Parliament in its 2009 Resolution on “Legal aspects on nanomaterials” called for more in-depth scientific (...) research on the toxicity of compounds in nanomaterials, and for the adoption of an EU definition of nanomaterials for regulatory purposes. Unfortunately, in 2011, nanotechnology led to inconclusive debates in the context of the revision of Novel Food Regulation. General Food Law applies to nanofood in terms of safety requirements, and specific rules also apply to food contact materials containing nanoparticles as well as to to additives, vitamins and minerals. The EU legislator also introduced mandatory labelling in respect of products derived from nanotechnologies. The legal framework is evolving according to the so-called “incremental approach”, a governance model that creates the risk of fragmentation. But the main problem is the inconsistent definition of the terms “nanotechnology” and “nanomaterials” when looking at the enforcement of regulations and the provision of a wide range of specific tools for different nanofoods: for example the use of positive lists of authorised substances applying only to food contact materials, additives and supplements. This contribution aims to review the regulations in force in respect to nanofood and novel foods and to highlight the problems that are still unresolved. (shrink)

In this paper I focus on the question of whether nanotechnology is giving rise to new ethical problems rather than merely to new instances of old ethical problems. Firstly, I demonstrate how important it is to make a general distinction between new ethical problems and new instances of old problems. Secondly, I propose one possible way of interpreting the distinction and offer a definition of a “new ethical problem”. Thirdly, I examine whether there is good reason to claim that (...) nanotechnology is giving or will give rise to new ethical problems. My conclusion is that there are no new ethical problems in nanotechnology but merely new occurrences of certain well-known types of ethical problems. Fourthly, I consider three arguments by van de Poel (NanoEthics 2:25–28, 2008) which contradict my conclusion. I argue that my negative conclusion is consistent with the claim that certain ethical issues arising in nanotechnology may require new normative standards or new analytical tools. I conclude that it is likely that a number of ethical issues arising in nanotechnology will have a considerable impact on our ethical theories and values – and that ethical reflection on nanotechnology will be one of the mother lodes of future ethical research – in spite of the fact that no ethical problem in nanoethics will actually be “new”. (shrink)

The revolutionary Feynman vision of a powerful and general nanotechnology, based on nanomachines that build with atom-by-atom control, promises great opportunities and, if abused, great dangers. This vision made nanotechnology a buzzword and launched the global nanotechnology race. Along the way, however, the meaning of the word has shifted. A vastly broadened definition of nanotechnology (including any technology with nanoscale features) enabled specialists from diverse fields to infuse unrelated research with the Feynman mystique. The resulting nanoscaletechnology (...) funding coalition has obscured the Feynman vision by misunderstanding its basis, distrusting its promise, and fearing that public concern regarding its dangers might interfere with research funding. In response, leaders of a funding coalition have attempted to narrow nanotechnology to exclude one area of nanoscale technology—the Feynman vision itself. Their misdirected arguments against the Feynman vision have needlessly confused public discussion of the objectives and consequences of nanotechnology research. (shrink)

The promise of scientific and technological innovation – particularly in fields such as nanotechnology – is increasingly set against what has been articulated as a deficit in public trust in both the new technologies and regulatory mechanisms. Whilst the development of new technology is cast as providing contributions to both quality of life and national competitiveness, what has been termed a ‘legitimacy crisis’ is seen as threatening the vitality of this process. However in contrast to the risk debates that (...) dominated the technological controversies of the late 1990s the vitality of technological innovation is now cast as vulnerable to lack of public confidence and trust in the regulatory and governance structures upon which such innovation depends. In order to address this deficit in public trust, science policy has increasingly turned to the social sciences, suggesting that public values might be incorporated into the development of nanotechnology at an early stage. Public ambivalence therefore constitutes the problem addressed by the increasingly central role that public engagement and participation play in contemporary science policy. Although the recent proliferation of public engagement activities is premised on the need to address this ambivalence through direct engagement, we re-interpret ambivalence as an engaged – rather than passive – mode of relating to technological determinism. Whilst the move toward forms of direct public engagement might be regarded as symptomatic of the emergence of affective mode of governance we interpret public ambivalence as a nested set of enthusiasms and anxieties. Accordingly we suggest that public engagement might be re-thought, utilising ambivalence as a creative resource, rather than as the problem. (shrink)

Risk management of nanotechnology is challenged by the enormous uncertainties about the risks, benefits, properties, and future direction of nanotechnology applications. Because of these uncertainties, traditional risk management principles such as acceptable risk, cost–benefit analysis, and feasibility are unworkable, as is the newest risk management principle, the precautionary principle. Yet, simply waiting for these uncertainties to be resolved before undertaking risk management efforts would not be prudent, in part because of the growing public concerns about nanotechnology driven (...) by risk perception heuristics such as affect and availability. A more reflexive, incremental, and cooperative risk management approach is required, which not only will help manage emerging risks from nanotechnology applications, but will also create a new risk management model for managing future emerging technologies. (shrink)

Human enhancement, in which nanotechnology is expected to play a major role, continues to be a highly contentious ethical debate, with experts on both sides calling it the single most important issue facing science and society in this brave, new century. This paper is a broad introduction to the symposium herein that explores a range of perspectives related to that debate. We will discuss what human enhancement is and its apparent contrast to therapy; and we will begin to tease (...) apart the myriad intertwined issues that arise in the debate: (1) freedom & autonomy, (2) health & safety, (3) fairness & equity, (4) societal disruption, and (5) human dignity. (shrink)

What does feminism have to do with nanotechnology? And how do mad scientists demonstrate the connections between the two? To explore this, I examine a case study of mad scientists in film, discussing first why mad scientist images arise and why nanotechnology, or the manipulation of matter on the atomic and molecular scales, may be particularly vulnerable to this kind of representation. National funding agencies are calling for the integration of ethics and societal implications into nanoscience and technology (...) research and the training of future scientists and engineers. This emphasis offers a powerful way to break down stereotypes about science and engineering that discourage the participation of some groups. (shrink)

This chapter contains sections titled: Definitions and Scales The Origins of Nanotechnology The Current State of Nanotechnology The Future of Nanotechnology Nanotechnology in Nature and Applications.

The development of ever smaller integrated circuits at the sub-micron and nanoscale—in accordance with Moore’s Law—drives the production of very small tags, smart cards, smart labels and sensors. Nanoelectronics and submicron technology supports surveillance technology which is practically invisible. I argue that one of the most urgent and immediate concerns associated with nanotechnology is privacy. Computing in the twenty-first century will not only be pervasive and ubiquitous, but also inconspicuous. If these features are not counteracted in design, they will (...) facilitate ubiquitous surveillance practices which are widely available, cheap, and intrusive. RFID technology is an instructive example of what nanotechnology has in store for privacy. (shrink)

The governance of nanotechnology seeks to limit its risks, without constraining opportunities. The literature on the effectiveness of approaches to governance has neglected approaches that impact directly on the behavior of a researcher. We analyze the effectiveness of legal regulations versus regulation via self-commitment. Then, we refine this model by analyzing competition and autonomy as key contingency factors. In the first step, qualitative interviews with nanotechnology researchers are conducted to reflect this model. In the second step, its empirical (...) relevance is tested using a survey of 90 nanotech researchers. The results indicate that legal regulations, as well as self-commitment to an informal CoC reduce the scope of behavior. Finally, that competition and autonomy affect the relative strength of these governance factors. (shrink)

This article contributes to the debate on governance of emerging technologies, focusing in particular on the international level and taking into account the fact that these technologies are developed through a common effort of different stakeholders including governments, research communities, industry and civil society actors. These issues are explored from the perspective of communitarian ethical criticism of liberal social contract thinking, in order to enhance visibility of the influence collective non-state actors exercise on the development of these technologies. In particular, (...) the effect of different values in the discussion on emerging technologies on the perceived governance options is explored. A paradigm shift from defensive values such as security, risk and human rights to more optimistic values like peace, justice and integrity of creation is proposed and discussed. (shrink)

When philosophers participate in the interdisciplinary ethical, environmental, economic, legal, and social analysis of nanotechnologies, what is their specific contribution? At first glance, the contribution of philosophy appears to be a clarification of the various moral and ethical arguments that are commonly presented in philosophical discussion. But if this is the only contribution of philosophy, then it can offer no more than a stalemate position, in which each moral and ethical argument nullifies all the others. To provide an alternative, we (...) must analyze the reasons behind the prevailing individual and cultural relativism in ethics. The epistemological investigation of this stalemate position will guide us to the core problem of the relation between theory and action . The stalemate can be overcome from a pragmatic philosophical standpoint, which combines epistemology, philosophy of language—that is, the philosophy of speech acts—and practical reasoning—that is, reasoning about decision-making . From this philosophical standpoint, it will be possible to show how philosophy can accompany and support the development of nanotechnologies. (shrink)

This book disentangles the complex meanings of responsibility in nanotechnology development by focusing on its theoretical and empirical dimensions. The notion of responsibility is extremely diversified in the public discourse of nanoscale technologies. Addressed are major disciplinary perspectives working on nanotechnology, e.g. philosophy, sociology, and political science, as well as the major multidisciplinary areas relevant to the innovation process, e.g. technology assessment and ethics. Furthermore, the interplay between such expertises, disciplines, and research programmes in providing a multidisciplinary understanding (...) of responsibility is emphasized. (shrink)

La conception américaine de la convergence technologique, promue par le programme NBIC (Nano-Bio-Info-Cogno), est orientée vers la recherche d’une intégration de tous les domaines du réel (la nature, la vie, l’esprit, la société) dans la représentation unitaire d’un monde constitué de systèmes hiérarchiques complexes et couplés entre eux. Il s’agit par conséquent d’une vision totalisante, témoignant d’un idéal de contrôle et de maîtrise que rien ne paraît devoir limiter. Les Grecs avaient un...

Nanotechnology, which involves manipulation of matter on a ‘nano’ scale, is considered to be a key enabling technology. Medical applications of nanotechnology are expected to significantly improve disease diagnostic and therapeutic modalities and subsequently reduce health care costs. However, there is no consensus on the definition of nanotechnology or nanomedicine, and this stems from the underlying debate on defining ‘nano’. This paper aims to present the diversity in the definition of nanomedicine and its impact on the translation (...) of basic science research in nanotechnology into clinical applications. We present the insights obtained from exploratory qualitative interviews with 46 stakeholders involved in translational nanomedicine from Europe and North America. The definition of nanomedicine has implications for many aspects of translational research including: fund allocation, patents, drug regulatory review processes and approvals, ethical review processes, clinical trials and public acceptance. Given the interdisciplinary nature of the field and common interest in developing effective clinical applications, it is important to have honest and transparent communication about nanomedicine, its benefits and potential harm. A clear and consistent definition of nanomedicine would significantly facilitate trust among various stakeholders including the general public while minimizing the risk of miscommunication and undue fear of nanotechnology and nanomedicine. (shrink)

This volume shows how nanotechnology takes on a wide range of socio-historically specific meanings in the context of globalization, across multiple localities, institutions and collaborations, through diverse industries, research labs, and government agencies and in a variety of discussions within the public sphere itself. It explores the early origins of nanotechnologies; the social, economic, and political organization of the field; and the cultural and subjective meanings ascribed to nanotechnologies in social settings.

Expectations play a central role in understanding scientific and technological changes. Future-oriented representations are also central with regard to nanotechnologies as they can guide policy activities, provide structures and legitimation, attract different interests, focus policy-makers’ attention and foster investments for research. However, the emphasis on future scenarios tends to underrate the complexity of the challenges of the present market of nanotechnologies by flattening them under the needs and promises of scientific research. This is particularly apparent if we consider the viewpoint (...) of the regulator who faces two different ranges of problems with regard to the market and research and is expected, simultaneously, to manage two different types of regulatory instruments, pursuing at the same time the same goals. Instead, by favoring only the future scenarios, the regulator runs the risk of abruptly shifting from more flexible and elastic tools to forms of hard legislation, wasting, thus, the resources of the soft-regulation, in particular those of self-regulation. By referring primarily to the European context, human rights, also thanks to their normative structure of principles, can help in strengthening both the legislation needed for regulating the present market and the soft instruments needed for steering research and for fostering the stakeholders’ participation without sacrificing the coherence of the regulatory response. (shrink)

This article explores a unique opportunity for shaping public health law and policy to reflect a greater balance between public and private goods in two areas of primary concern to human well-being: medicine and human biosecurity. This opportunity is presented both by the rapid changes likely to occur in these areas as a result of nanotechnology and the fact that multinational corporate actors have not yet had the opportunity to use their well-honed techniques of governance influence to modify public (...) health policy and law in this area to their own narrowly focused advantage. Such a rare opportunity to rethink some fundamental assumptions about a regulatory framework for globally important health issues in advance is one reason why issues concerning nanotechnology regulation in medicine and human biosecurity should have considerable interest to health law and policy scholars. (shrink)