To what extent do nanotechnology researchers discern specific work-related ethical responsibilities that are incumbent upon them? A questionnaire was designed and administered to answer this question. Analysis of responses to 11 ethical responsibility statements (ERSs) by 213 researchers at the Stanford Nanofabrication Facility revealed widespread agreement about a number of work-related ethical responsibilities and substantial divergence in the views about several others. Explanations of this divergence are proposed. A new variable is defined that gauges the respondent’s overall (...) level of discernment of the ethical responsibilities referenced in the ERSs. The mean discernment level score for respondents who had taken a course that included discussion of ethical issues closely related to science, technology, or engineering was significantly higher than for those who had not. Further, among respondents who had taken such a course, the mean discernment level score for those who had taken an ethics course devoted to exploration of ethical issues closely related to science, technology, or engineering was significantly higher than for those who had taken a technical science or engineering course that typically pays only fleeting attention to such issues. Implications of these findings are discussed. (shrink)

Based on bibliometric methods, this paper describes the global institutionalization of nanotechnology research from the mid-1980s to 2006. Owing to an extremely strong dynamics, the institutionalization of nanotechnology is likely to surpass those of major disciplines in only a few years. A breakdown of the relative institutionalizations strengths by the main geographical regions, countries, research sectors, disciplines, and institutional types provides a very diverse picture over the time period because of different national science policies. The results allow a (...) critical assessment of the different science policies based on the relative institutionalizations strengths as well as the conclusion that the institutionalization process has run out of control of individual governments who once induced the development. (shrink)

The experience with genetically modified foods has been prominent in motivating science, industry and regulatory bodies to address the social and ethical dimensions of nanotechnology. The overall objective is to gain the general public’s acceptance of nanotechnology in order not to provoke a consumer boycott as it happened with genetically modified foods. It is stated implicitly in reports on nanotechnology research and development that this acceptance depends on the public’s confidence in the technology and that the confidence (...) is created on the basis of information, education, openness and debate about scientific and technological developments. Hence, it is assumed that informing and educating the public will create trust, which will consequently lead to an acceptance of nanotechnology. Thus, the humanities and social sciences are seen as tools to achieve public acceptance. In this paper, the author argues that this is a narrow apprehension of the role of the humanities and social sciences. The humanities and social sciences have a critical function asking fundamental questions and informing the public about these reflections. This may lead to scepticism, however, the motivation for addressing the social and ethical dimensions of nanotechnology should not be public acceptance but informed judgement. The author illustrates this critical function by discussing the role, motivation and contribution of ethics as an example. Lastly, the author shows that a possible strategy for incorporating the humanities and the social sciences into nanotechnology research and development is Real-Time Technology Assessment, where the purpose is to integrate natural science and engineering investigations with ethical, legal and social science from the outset. (shrink)

Little if any of the scholarly literature on nanotechnology (NT) and ethics is directed at NT researchers. Many of these practitioners believe that having clear ethical guidelines for the conduct of NT research is necessary. This work attempts to provide such guidelines. While no qualitatively new ethical issues unique to NT have yet been identified, the ethical responsibilities identified below merit serious attention by NT researchers. Thirteen specific ethical responsibilities arising at three levels are identified. They are (...) derived by applying four fundamental ethical responsibilities of scientists and engineers to the specific conditions of NT research and researchers in contemporary Western societies. Since society is placing increasing importance on producing scientists and engineers who combine high technical competence with a sensitive ethical compass, study of the ethical dimension of NT, including the identified ethical responsibilities, should become a required element of the formal education of all NT researchers. (shrink)

Scientists’ sense of social responsibility is particularly relevant for emerging technologies. Since a regulatory vacuum can sometimes occur in the early stages of these technologies, individual scientists’ social responsibility might be one of the most significant checks on the risks and negative consequences of this scientific research. In this article, we analyze data from a 2011 mail survey of leading U.S. nanoscientists to explore their perceptions the regarding social and ethical responsibilities for their nanotechnology research. Our analyses show that (...) leading U.S. nanoscientists express a moderate level of social responsibility about their research. Yet, they have a strong sense of ethical obligation to protect laboratory workers from unhealthy exposure to nanomaterials. We also find that there are significant differences in scientists’ sense of social and ethical responsibility depending on their demographic characteristics, job affiliation, attention to media content, risk perceptions and benefit perceptions. We conclude with some implications for future research. (shrink)

The experience with genetically modified foods has been prominent in motivating science, industry and regulatory bodies to address the social and ethical dimensions of nanotechnology. The overall objective is to gain the general public’s acceptance of nanotechnology in order not to provoke a consumer boycott as it happened with genetically modified foods. It is stated implicitly in reports on nanotechnology research and development that this acceptance depends on the public’s confidence in the technology and that the confidence (...) is created on the basis of information, education, openness and debate about scientific and technological developments. Hence, it is assumed that informing and educating the public will create trust, which will consequently lead to an acceptance of nanotechnology. Thus, the humanities and social sciences are seen as tools to achieve public acceptance. (shrink)

This paper focuses on the contribution of meta-regulation in responding to the regulatory needs of a field beset by significant uncertainties concerning risks, benefits and development trajectories and characterised by fast development. Meta-regulation allows regulators to address problems when they lack the resources or information needed to develop sound “discretion-limiting rules”; meta-regulators exploit the information advantages of those actors to be regulated by leveraging them into the task of regulating itself. The contribution of meta-regulation to the governance of nanotechnologies is (...) assessed in terms of responsibilisation. Responsibilisation is regarded as a pre -requisite for regulatory actors to internalise social values (such as consumer safety and occupational health) and to ensure that these values are built into regulatory practice. In order to explore the potential of responsibilisation, the Code of Conduct for Responsible Nanosciences and Nanotechnologies Research launched by the European Commission in 2008 is evaluated. The Code is a good case of meta-regulation that aims to steer the self-regulation of nanotechnological business and research organisations. The paper concludes that, while efforts were made on the part of meta-regulators and self-regulators to contribute to responsibilisation, important opportunities for responsibilisation such as dissemination and promotion of the Code, trust-building activities, and failure to provide rewards, incentives and stakeholder guidance were not taken up. In order to foster responsibilisation within the meta-regulatory instrument of the EC Code, a number of crucial activities to be undertaken by meta-regulators are recommended. (shrink)

The growth of responsible innovation scholarship has been mirrored by a proliferation of RI definitions and practices, as well as a recognition of the importance of context for RI. This study investigates how researchers in the field of nanotechnology for food and agriculture define and practice RI, as well as what motivations they see for pursuing RI. We conducted 20 semi-structured interviews with nano-agrifood researchers from industry and academia in the USA, where we asked them to describe (...) their RI definitions, practices, and motivations. We analyzed the emergent themes from these interviews, including how the themes aligned with four prominent RI principles. We found that nano-agrifood researchers largely focused their descriptions of RI definitions, practices, and motivations around a narrow envisioning of the RI principle of anticipation — emphasizing product safety, efficacy, and efficiency. We also found noteworthy tensions surrounding the less frequently mentioned RI principles. For example, some researchers envisioned inclusion as a way to align products with industry interests while others saw it as a way to align products with the public good. Concerning motivations for RI, some researchers viewed RI as a way to protect one’s reputation and avoid lawsuits while others viewed it as a way to improve human well-being and solve societal problems. Given these findings, future efforts to foster RI within nano-agrifoods should promote discussions among researchers concerning what it means to responsibly innovate and what practices this could entail, particularly beyond ensuring product safety, efficacy, and efficiency. (shrink)

A study was conducted of nanotechnology (NT) researchers’ views about ethics in relation to their work. By means of a purpose-built questionnaire, made available on the Internet, the study probed NT researchers’ general attitudes toward and beliefs about ethics in relation to NT, as well as their views about specific NT-related ethical issues. The questionnaire attracted 1,037 respondents from 13 U.S. university-based NT research facilities. Responses to key questionnaire items are summarized and noteworthy findings presented. For most (...) respondents, the ethical responsibilities of NT researchers are not limited to those related to safety and integrity in the laboratory. Most believe that NT researchers also have specific ethical responsibilities to the society in which their research is done and likely to be applied. NT appears to be one of the first areas of contemporary technoscientific activity in which a long-standing belief is being seriously challenged: the belief that society is solely responsible for what happens when a researcher’s work, viewed as neutral and merely enabling, is applied in a particular social context. Survey data reveal that most respondents strongly disagree with that paradigmatic belief. Finally, an index gauging NT researcher sensitivity to ethics and ethical issues related to NT was constructed. A substantial majority of respondents exhibited medium or high levels of sensitivity to ethics in relation to NT. Although most respondents view themselves as not particularly well informed about ethics in relation to NT, a substantial majority are aware of and receptive to ethical issues related to their work, and believe that these issues merit consideration by society and study by current and future NT practitioners. (shrink)

Dependence in nanotechnology on external funding and academic-industry relationships has led to questions concerning its influence on research directions, as well as the potential for conflicts of interest to arise and impact scientific integrity and public trust. This study uses a survey of 193 nanotechnology industry and academic researchers to explore whether they share similar concerns. Although these concerns are not unique to nanotechnology, its emerging nature and the prominence of industry funding lend credence to understanding (...) its researchers’ views, as these researchers are shaping the norms and direction of the field. The results of the survey show general agreement that funding sources are influencing research directions in nanotechnology; many respondents saw this influence in their own work as well as other researchers’ work. Respondents also agreed that funding considerations were likely to influence whether researchers shared their results. Irrespective of their institutional affiliation or funding status, twice as many researchers as not considered financial conflicts of interest a cause for concern, and three times as many respondents as not disagreed financial conflicts of interest in nanotechnology were uncommon. Only a third was satisfied with the way that conflicts of interest are currently managed and believed current procedures would protect the integrity of nanotechnology research. The results also found differences in views depending on researchers’ institutional affiliation and funding status. (shrink)

Papers on nanotechnology in the Scientific Electronic Library Online database were studied bibliometrically. The terms ‘nanotechnology’, ‘nanoparticle’, ‘graphene’, ‘fullerene’, ‘nanotube’ and ‘quantum dot’ were used for the search in their singular and plural forms in three languages, and a total of 1205 papers were selected for the study to assess the frequency rates of the study variables. The results of the study are presented in this article focusing on gender differences.

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)

Trust has become an important aspect of evaluating the relationship between lay public and technology implementation. Experiences have shown that a focus on trust provides a richer understanding of reasons for backlashes of technology in society than a mere focus of public understanding of risks and science communication. Therefore, trust is also widely used as a key concept for understanding and predicting trust or distrust in emerging technologies. But whereas trust broadens the scope for understanding established technologies with well-defined questions (...) and controversies, it easily fails to do so with emerging technologies, where there are no shared questions, a lack of public familiarity with the technology in question, and a restricted understanding amongst social researchers as to where distrust is likely to arise and how and under which form the technology will actually be implemented. Rather contrary, ‘trust’ might sometimes even direct social research into fixed structures that makes it even more difficult for social research to provide socially robust knowledge. This article therefore suggests that if trust is to maintain its important role in evaluating emerging technologies, the approach has to be widened and initially focus not on people’s motivations for trust, but rather the object of trust it self, as to predicting how and where distrust might appear, how the object is established as an object of trust, and how it is established in relation with the public. (shrink)

Responsible research and innovation has come to represent a change in the relationship between science, technology and society. With origins in the democratisation of science, and the inclusion of ethical and societal aspects in research and development activities, RRI offers a means of integrating society and the research and innovation communities. In this article, we frame RRI activities through the lens of layers of science and technology governance as a means of characterising the context in which the RRI activity is (...) positioned and the goal of those actors promoting the RRI activities in shaping overall governance patterns. RRI began to emerge during a time of considerable deliberation about the societal and governance challenges around nanotechnology, in which stakeholders were looking for new ways of integrating notions of responsibility in nanotechnology research and development. For this reason, this article focuses on nanotechnology as the site for exploring the evolution and growth of RRI. (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)

In this article we argue that nanotechnology represents an extraordinary opportunity to build in a robust role for the social sciences in a technology that remains at an early, and hence undetermined, stage of development. We examine policy dynamics in both the United States and United Kingdom aimed at both opening up, and closing down, the role of the social sciences in nanotechnologies. We then set out a prospective agenda for the social sciences and its potential in the future (...) shaping of nanotechnology research and innovation processes. The emergent, undetermined nature of nanotechnologies calls for an open, experimental, and interdisciplinary model of social science research. (shrink)

Responsible Research and Innovation provides a framework for judging the ethical qualities of innovation processes, however guidance for researchers on how to implement such practices is limited. Exploring RRI in the context of nanotechnology, this paper examines how the dispersed and interdisciplinary nature of the nanotechnology field somewhat hampers the abilities of individual researchers to control the innovation process. The ad-hoc nature of the field of nanotechnology, with its fluid boundaries and elusive membership, has thus (...) far failed to establish a strong collective agent, such as a professional organization, through which researchers could collectively steer technological development in light of social and environmental needs. In this case, individual researchers cannot innovate responsibly purely by themselves, but there is also no structural framework to ensure that responsible development of nanotechnologies takes place. We argue that, in such a case, individual researchers have a duty to collectivize. In short, researchers in situations where it is challenging for individual agents to achieve the goals of RRI are compelled to develop organizations to facilitate RRI. In this paper we establish and discuss the criteria under which individual researchers have this duty to collectivize. (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)

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)

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 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)

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)

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)

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)

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)

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)

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.

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.

In this paper, the public view of nanotechnology and its applications in medicine, agriculture and industry is evaluated in the mega cities of Iran. Data from 683 individuals in public places provided the first civic perception of nanotechnology in Iran. Quantitative statistical analysis on positive or negative points of view demonstrated that Iranian people had general positive opinions on nanotechnology and its application in medicine. They believed that nanomedicine can significantly improve the current methods used in disease (...) treatments, especially for cancer therapy. In general, the responders believed that they would easily accept the use of nanotechnology products and would like increased financial support of the government on nanomedicine and nanotechnology research fields and they showed little anxiety about the possible risks. According to our statistical analysis, three individual characteristics age, education level and career had a direct correlation with the knowledge level of Iranian people on nanotechnology in the mega cities of Iran. (shrink)

Nanotechnology seems to be a new “key-discipline”, which should lead to basic changes in many areas of living and producing. This estimation is questioned by a comparison with established technologies, which reach from heat engines to biotechnology. In this line it is possible to come to a more realistically assessment of nanotechnology. “Technologies” in the narrower sense are understood as techniques based scientifically and integrated systematically into a network. The development of these technologies starts first in the early (...) modern times. Before this background the established technologies are characterised looking at relevant questions and problems, the role of researchers and inventors, the importance of theoretical foundations, important applications and innovations, as well as the relevance of visions and then confronted with nanotechnology in its present state. It is accentuated that there are no explicit theories and no specific applications of nanotechnology and it seems to be only a kind of chemical technology. (shrink)

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)

This paper considers how best to approach dilemmas posed to global health and biosecurity policy by increasing advances in practical applications of nanotechnology. The type of nano-technology policy dilemmas discussed include: expenditure of public funds, public-funded research priorities, public confidence in government and science and, finally, public safety. The article examines the value in this context of a legal obligation that the development of relevant public health law be calibrated against less corporate-infuenced norms issuing from bioethics and international human (...) rights. (shrink)

This chapter contains sections titled: The Stricter‐Law Argument Learning from History Objections to the Stricter‐Law Argument An Interim Solution? Putting the Pieces Together.

The advent of the new nanotechnologies has been heralded by government, media, and many in the scientific community as the next big thing. Within the agricultural sector research is underway on a wide variety of products ranging from distributed intelligence in orchards, to radio frequency identification devices, to animal diagnostics, to nanofiltered food products. But the nano-revolution (if indeed there is a revolution at all) appears to be taking a turn quite different from the biotechnology revolution of two decades ago. (...) Grappling with these issues will require abandoning both the exuberance of diffusion theory and ex post facto criticism of new technologies as well in favor of a more nuanced and proactive view that cross the fault line between the social and natural sciences. (shrink)

Nanotechnologies are a controversial topic, as they seem promising but also cause concern. Previous research has highlighted the potential link between nanotechnologies and other hazardous technologies. The aim of this research was to analyse the discourse on this topic by three groups of participants: laypersons, scientists and environmentalists. Thirty-four people (13 laypersons, ten scientists and eleven environmentalists) were interviewed using a semi-structured interview. Lexical and thematic analyses showed that scientists engage in explanatory discourse and perceive fewer risks than laypersons and (...) environmentalists. The latter two groups describe applications and list the main actors in the development of nanotechnologies. Environmentalists are significantly more likely to make spontaneous associations with other technologies, such as electromagnetic waves, and perceive more risks than the other two groups. Contrary to our expectations, laypersons make fewer associations with biotechnologies than experts or environmentalists. The results are discussed in terms of the interest of a qualitative approach to uncovering new objects spontaneously associated with nanotechnologies, as well as in terms of a risk governance framework. (shrink)

This book features the contribution of major European research projects on the governance and ethics of Nanotechnology. They focus on the responsible development of nanotechnology and on the understanding of public debate.

The term ‘nano-divide’ has become a catch-phrase for describing various kinds of global nanotechnology inequities. However, there has been little in-depth exploration as to what the global nano-divide really means, and limited commentary on its early nature. Furthermore, the literature often presents countries from the Global South as ‘passive’ agents in global nanotechnology innovation—without the ability to develop endogenous nanotechnology capabilities. Yet others point to nanotechnology providing opportunities for the South to play new roles in the (...) global research and development process. In this paper I report on the findings of a qualitative study that involved the perspectives of 31 Thai and Australian key informants, from a broad range of fields. The study was supplemented by a survey of approximately 10% of the Thai nanotechnology research community at the time. I first explore how the global nano-divide is understood and the implication of the divide’s constructs in terms of the roles to be played by various countries in global nanotechnology innovation. I then explore the potential nature of Southern passivity and barriers and challenges facing Southern endogenous innovation, as well as an in-depth consideration of the proposition that Southern countries could be ‘active’ agents in the nanotechnology process. I argue that it is the nano-divide relating to nanotechnology research and development capabilities that is considered fundamental to nanotechnology’s Southern outcomes. The research suggests that Southern countries will encounter many of the traditional barriers to engaging with emerging technology as well as some new barriers relating to the nature of nanotechnology itself. Finally, the research suggests that nanotechnology may offer new opportunities for Southern countries to enter the global research and development picture. (shrink)

Research in nanotechnology has advanced rapidly in recent years. Several researchers, however, warn that there is a paucity of research on the ethical, legal, and social implications of nanotechnology, and they caution that ethical reflections on nanotechnology lag behind this fast developing science. In this article, the authors question this conclusion, pointing out that the predicted concrete ethical issues related to the area of nanotechnology are rather similar to those related to the area of biotechnology (...) and biology that have been considered by ethicists since the 1970s. Hence, a knowledge base has already been acquired from ethical reflections on biotechnology and biology, which may be a good starting point and foundation for a discussion of ethical reflections on nanotechnology. The authors argue that a promising approach is the use of basic ethical principles as a method to analyze ethical issues of nanotechnology. (shrink)

Ongoing research in nanotechnology promises both innovations and risks, potentially and profoundly changing the world. This book helps to promote a balanced understanding of this important emerging technology, offering an informed and impartial look at the technology, its science, and its social impact and ethics. Nanotechnology is crucial for the next generation of industries, financial markets, research labs, and our everyday lives; this book provides an informed and balanced look at nanotechnology and its social impact Offers a (...) comprehensive background discussion on nanotechnology itself, including its history, its science, and its tools, creating a clear understanding of the technology needed to evaluate ethics and social issues Authored by a nanoscientist and philosophers, offers an accurate and accessible look at the science while providing an ideal text for ethics and philosophy courses Explores the most immediate and urgent areas of social impact of nanotechnology. (shrink)

Little previous research has examined attitudes about societal and ethical issues (SEI) among interns participating in research experience for undergraduate programs (REUs) in nanotechnology, thus neglecting an important population for understanding the burgeoning views of the next generation of nanotechnology researchers. This study surveyed a sample of interns (N = 85) participating in the National Nanotechnology Infrastructure Network’s (NNIN) REU program during the summer of 2012. Our questions focused on interns’ experiences with education on ethical issues, (...) as well as their attribution of responsibility for considering ethical issues, motivations to talk about ethical issues, and comfort level of discussing ethical issues with faculty, mentors, lab staff, and other REU students. Among key findings was that lab culture related to the extent to which REU interns felt comfortable discussing ethical issues. In addition, those who reported more discussions about ethical issues with their mentors were more likely to consider themselves as responsible for considering ethical issues. We conclude with recommendations and future research directions. (shrink)

The main objective of the Flemish research project ‘Nanotechnologies for tomorrow’s society’ (NanoSoc) is to develop and try out an interactive process as a suitable methodology for rendering nanoresearchers aware of underlying assumptions that guide nanotech research and integrating social considerations into the research choices they face. In particular, the NanoSoc process should sustain scientists’ capacities to address growing uncertainties on the strategic, scientific and public acceptance level. The article elaborates on these uncertainties and involved dilemmas scientists are facing and (...) proposes a process approach which addresses strategic uncertainty by alternating between ‘visioning’ and ‘technology assessment’; a process design which manages complexity by promoting reflexivity among scientists by exposing them to deliberations in civil society (social experts, stakeholders, citizens) on plausible futures with nanotechnologies; and as an answer to societal ambivalence, certain process quality requirements such as an attitude of perplexity or openness towards ‘plurality’ and an attitude of ‘temporary closure’, both in support of understanding and learning from differences. (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)

No one really knows where nanotechnology is leading, what its pursuit will mean, and how it may affect human and other forms of life. Nevertheless, its research and development are moving briskly into that unknown. It has been suggested that rapid movement towards 'who knows where' is endemic to all technological development; that its researchers pursue it for curiosity and enjoyment, without knowing the consequences, believing that their efforts will be beneficial. Further, that the enthusiasm for development comes (...) with no malicious intent but rather from simple ignorance. Contrary to that commonly held perception about the collective pursuit of technological development, there are individual research scientists and engineers who are quite willing to reflect on the meaning of their work in nanotechnology. Nanotalk is a book of conversations and explorations with thirty five such nano-research scientists and engineers who share their ideas, experiences, perceptions, and beliefs about their work, humanity, nature, change, and the future of the world with nanotechnology. Precisely because of the unknowable nature of nanotechnology research and development, conscientious foresight and ethical reflection are warranted every step of the way. Not only do nanotechnology research and development represent enormous financial commitments, but they also require a profound leap of faith regarding its possible outcomes. Using these conversations as the basis of reflection and deliberation, the author explores the possible significance of nanotechnology to humanity and how it might be pursued conscientiously and ethically. (shrink)

Nanotechnology has from its very beginning been surrounded with an aura of novelty. For instance, on the 28 introductory pages of the report that prepared the US National Nanotechnology Initiative (NNI), Nanotechnology Research Directions (NSTC/IWGN 1999), we read 73 times the term “new”, 15 times “novel”, 7 times “innovation”, and 21 times “revolution”. The authors concede that one should distinguish between different nanotechnologies, because “Many existing technologies do already depend on nanoscale processes. Photography and catalysis are two (...) examples of ‘old’ nanotechnologies” (ibid, p. xxvi). One might conclude here that, if all the existing nanotechnologies are “old” nanotechnologies, “new” nanotechnologies do not yet exists but are only promises of the future. However, without further explanation and distinction between presence and future, they suggest that most nanotechnologies are or will be new. Furthermore, they claim that nanotechnology (in singular) is a generator of further new technologies, since “Nanotechnology will give birth to new fields that at present are only visions of leading researchers” (ibid., p. xviii). Whenever science managers speak of nanotechnology (in singular), sophisticated distinctions seem to give way to plain claims about the present and future novelty of nanotechnology. As the NNI director Mihail Roco wrote in a 2001 report, “A revolution is occurring in science and technology […] Nanotechnology will fundamentally transform science, technology, and society. In 10 to 20 years, a significant proportion of industrial production, healthcare practice, and environmental management will be changed by the new technology.” (Roco & Bainbridge, pp. 1, 19) When they put on their hats as science managers, scientists rarely reject but mostly support such novelty claim, as did for instance the chemists George Whitesides and Paul Alivisatos in the earlier report: “Nanostructures are the entry into a new realm in physical and biological science.” (NSTC/IWGN 1999, p.. (shrink)

The presence of nanotechnologies grew and spread throughout Latin America during the first decade of the 21st century. Science and Technology policies have played an important role in the performance of these new technologies. Various international institutions, such as the World Bank, the Organization for Economic Co-operation and Development, and the Organization of American States promoted similar Science and Technology policies, and included nanotechnology as a priority area. This article shows the role of these Science and Technology policies in (...) the promotion of specific objectives and the gap that was left due to the failure to incorporate an examination of the potential risks to health and environment, not to mention other labor-related effects. The omission of matters relevant to workers and consumers by these institutions led to a distancing from organized civil society. (shrink)

Nanotechnology and nanosciences have recently gained tremendous attention and funding, from multiple entities and directions. In the last 10 years the funding for nanotechnology research has increased by orders of magnitude. An important part that has also gained parallel attention is the societal and ethical impact of nanotechnology and the possible consequences of its products and processes on human life and welfare. Multiple thinkers and philosophers wrote about both negative and positive effects of nanotechnology on humans (...) and societies. The literature has a considerable amount of views about nanotechnology that range from calling for the abandonment and blockage of all efforts in that direction to complete support and encouragement in hopes that nanotechnology will be the next big jump in ameliorating human life and welfare. However, amidst all this hype about the ethics of nanotechnology, relatively less efforts and resources can be found in the literature to help engineering professionals and educators, and to provide practical methods and techniques for teaching ethics of nanotechnology and relating the technical side of it to the societal and human aspect. The purpose of this paper is to introduce strategies and ideas for teaching ethics of nanotechnology in engineering in relation to engineering codes of ethics. The paper is neither a new philosophical view about ethics of nanotechnology nor a discussion of the ethical dimensions of nanotechnology. This is an attempt to help educators and professionals by answering the question of how to incorporate ethics of nanotechnology in the educational process and practice of engineering and what is critical for the students and professionals to know in that regard. The contents of the presented strategies and ideas focus on the practical aspects of ethical issues related to nanotechnology and its societal impact. It also builds a relation between these issues and engineering codes of ethics. The pedagogical components of the strategies are based on best-practices to produce independent life-long self-learners and critical thinkers. These strategies and ideas can be incorporated as a whole or in part, in the engineering curriculum, to raise awareness of the ethical issues related to nanotechnology, improve the level of professionalism among engineering graduates, and apply ABET criteria. It can also be used in the way of professional development and continuing education courses to benefit professional engineers. Educators and institutions are welcome to use these strategies, a modified version, or even a further developed version of it, that suits their needs and circumstances. (shrink)

Nanotechnology shows great promise in a variety of applications with attractive economic and societal benefits. However, societal issues associated with nanotechnology are still a concern to the general public. While numerous technological advancements in nanotechnology have been achieved over the past decade, research into the broader societal issues of nanotechnology is still in its early phases. Based on the data from the Web of Science database, we applied the main path analysis, cluster analysis and text mining (...) tools to explore the main research fronts and hierarchical structure of these societal issues. We found that the research studies fell into four categories: "General Toxicity and EHS (Environment, Health and Safety)," "Medicine and Cytotoxicity," "Assessment and Regulation," and "Environment and Ecotoxicity." These research studies have disclosed much information about the potential effect of nanotechnology on public health and the environment. Relatively speaking, the studies on the assessment, regulation, preventive solutions, and environmental protection are just emerging. This finding indicates that an abundance of effort should be conducted on these emerging themes to maximize the benefits of nanotechnology while minimizing its potential harm. The implications for various parties in this domain are also presented. (shrink)