Nanotechnology Now

Our NanoNews Digest Sponsors

Heifer International

Wikipedia Affiliate Button

Home > Press > ASU colleges to collaborate on law, technology project

A transdisciplinary team of faculty members and students at Arizona State University has begun a research project to address the growing lag between emerging technologies and the policies and ethics that govern them, and to recommend solutions for improving the timeliness and flexibility of these regulatory processes.

ASU colleges to collaborate on law, technology project

Tempe, AZ | Posted on November 20th, 2007

The group received an $80,000 grant from the Joan and David Lincoln Center for Applied Ethics at ASU for the project, "Addressing the Growing Gap Between Rapidly Emerging Technologies and Ethical, Legal and Policy Capabilities." The project will be led by Gary Marchant, Lincoln Professor of Emerging Technologies, Law & Ethics in the Sandra Day O'Connor College of Law and Executive Director of the College's Center for the Study of Law, Science, & Technology; Braden Allenby, Lincoln Professor of Engineering and Ethics in the Ira A. Fulton School of Engineering; and Joseph Herkert, Lincoln Associate Professor of Ethics and Technology in the School of Applied Arts and Sciences.

"This project fits perfectly with these three Lincoln professors, with the Center, and with the Lincoln family, which has always been involved in technology," said Peter French, director of the Lincoln Center. "What we're looking for here is to expose the problem, that various technologies in so many different areas have advanced way past not only what the law, but what ethics, as well, can track. And we need to look at how to keep pace."

Marchant said the project will tackle an exciting intellectual issue: how to get the law and ethics to move more quickly?

"We see this as a big project for the next two to three years at the law school and the university," he said. "Science and technology are moving faster than ever before, but the pace of rulemaking and policy-making is clearly slowing down."

Marchant cited numerous examples of antiquated laws, unregulated new technologies in the areas of genetics and biotechnology, nanotechnology, cognitive sciences and information and enhancement technologies, and agencies bogged down in public-hearing methods that haven't kept up with the times.

For example, Marchant said, adoption of a single regulation in the Occupational Safety and Health Administration often takes eight or more years, and the Clean Water Act of 1972 doesn't regulate runoff, which is among the top sources of water pollution today.

A dramatic example of the law lagging far behind technology can be found at the Federal Communications Commission, he said. Despite the fact that an estimated 250 million Americans use cell phones, the FCC claims it isn't ready to regulate how cell phone service providers use the private information of its users. And there's virtually no regulation of Radio-Frequency Identification, which can be used to track a product, animal or person.

"With a lot of technology being developed today, the whole idea is to know who you are and where you are," said Herkert, referring to a range of new communication and tracking technologies now entering the market. "What does privacy mean in that context? Is there such a thing?"

The gap between science and policy development also puts businesses and their investors at a disadvantage, depriving the certainty and predictability they need to plan and innovate, and posing a growing threat to the future of our economy and health, the researchers said.

"In my discussions with people, I have been amazed at how unaware most are of how rapidly technology is advancing, and its implications for our lives," said Allenby. "In light of accelerating technological evolution, the need for ethical and responsive legal structures is important not just to support our quality of life, but as an increasingly critical matter of national competitiveness."

The project calls for the researchers to first establish specific problems in the pacing of technology, science and the law, by developing case studies on the speed of technology development. They will then develop models that may enable policymakers, courts and regulators to respond more quickly.

"And it's not just the speed of innovation, it's the quality of the technology itself," Herkert said. "Nanotechnology is a great example. We're dealing with materials with novel properties that we don't have an experience base with. The idea of regulating it by historic examples doesn't necessarily hold in this case."

A cluster of law students has begun working in five areas -- genetic testing and human enhancement, brain scanning, surveillance technologies, nanotechnology and environmental advancements - and how these are regulated by agencies, legislatures and the courts.

Next fall, a workshop will be held at ASU, involving about 20 leading scholars, policymakers and others who will discuss the issue of pacing ethics and law with rapidly developing technologies and hammer out the proposed solutions. These ideas will be presented and discussed at the workshop at ASU in October 2008, then published as a book and a Web site, for use by policymakers, regulators, journalists, industry experts, public interest groups, scholars and members of the public.

"We're thinking of this, two to three years out, as a seeding project that will allow the team to proceed to a more significant grant to carry the project to the next level," French said.


About Arizona State University
The Joan and David Lincoln Center for Applied Ethics ( ) at Arizona State University is a unique resource that supports ethics and encourages the practice of ethical behavior. The Center is dedicated to emphasizing the essential role that morals and values play in the achievements and successes of individuals and organizations. The Center's goal is to create a university and community ethical culture. It will do so by sponsoring an array of activities ranging from course development to conferences on ethics issues that occur in specific fields and professions as well as those of pressing importance in the community at large.

Note: Please use the official name of the College – The Sandra Day O’Connor College of Law at Arizona State University. The Sandra Day O’Connor College of Law ( ) at Arizona State University was founded in 1967 and renamed for the retired U.S. Supreme Court Justice in 2006. It is the only fully accredited law school in the Phoenix area, boasts an Indian Legal Program that is arguably the best in the nation, and houses the Center for the Study of Law, Science, & Technology, the oldest, largest and by far the most comprehensive law and science center in the country. ASU is one of the premier metropolitan public research universities in the nation.

The Ira A. Fulton School of Engineering ( ) at Arizona State University serves more than 4,500 undergraduates and 1,500 graduate students, providing skills and knowledge for science and technology-oriented careers. Ranked nationally in the top 50 among more than 185 engineering schools rated by US News & World Report magazine, the school engages in use-inspired research in a multidisciplinary setting for the benefit of individuals, society and the environment. Its 200-plus faculty members pursue research in electrical, industrial, chemical, mechanical, aerospace, civil and environmental engineering, bioengineering and computer science.

The School of Applied Arts & Sciences ( ), founded in 2007, offers a variety of professional programs and a broad array of popular general studies and general interest courses to provide academic foundations for all Polytechnic campus students. Bachelor’s and graduate degree programs are offered in applied psychology; applied biological sciences; exercise and wellness; and nutrition, with additional undergraduate programs in history; literature and film; human health studies; interdisciplinary studies; and multimedia writing and technical communication.

ASU’s Polytechnic campus, located in southeast Mesa, offers degree programs, unparalleled by other Arizona state universities, through the Morrison School of Management and Agribusiness, School of Applied Arts & Sciences, College of Technology and Innovation, and School of Educational Innovation and Teacher Preparation. Visit us online at .

For more information, please click here

Janie Magruder
Sandra Day O’Connor College of Law

Joe Kullman
Ira A. Fulton School of Engineering

Christine Lambrakis
ASU Media Relations

Copyright © Arizona State University

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Delicious Digg Newsvine Google Yahoo Reddit Magnoliacom Furl Facebook

Related News Press


Iran to hold intl. school on application of nanomaterials in medicine September 20th, 2016

Synthetic biology needs robust safety mechanisms before real world application: Ethics and technology hold the key to the success of synthetic biology September 17th, 2015

March 2016; 6th Int'l Conference on Nanostructures in Iran July 29th, 2015

PETA science consortium to present at Society for Risk Analysis meeting December 10th, 2014


Salt boosts creation of 2-D materials: Rice University scientists show how salt lowers reaction temperatures to make novel materials April 18th, 2018

Quantum shift shows itself in coupled light and matter: Rice University scientists corral, quantify subtle movement in condensed matter system April 16th, 2018

When superconductivity disappears in the core of a quantum tube: By replacing the electrons with ultra-cold atoms, a group of physicists has created a perfectly clean material, unveiling new states of matter at the quantum level April 16th, 2018

Quantum physicists achieve entanglement record: Largest entangled quantum register of individually controllable systems to date April 15th, 2018


New qubit now works without breaks: A universal design for superconducting qubits has been created April 19th, 2018

Observing biological nanotransporters: Chemistry April 19th, 2018

Grand Opening of UC Irvine Materials Research Institute (IMRI) to Spotlight JEOL Center for Nanoscale Solutions: Renowned Materials Scientists to Present at the 1st International Symposium on Advanced Microscopy and Spectroscopy (ISAMS) April 18th, 2018

Salt boosts creation of 2-D materials: Rice University scientists show how salt lowers reaction temperatures to make novel materials April 18th, 2018

Grants/Sponsored Research/Awards/Scholarships/Gifts/Contests/Honors/Records

Lifeboat Foundation funds flying 3D-printed classroom cubesats with Perlan II April 16th, 2018

Thermo Scientific Krios G3i Cryo-Electron Microscope Wins Gold Edison Award: Krios G3i helps scientists better understand disease mechanisms in order to accelerate cures April 12th, 2018

Bloodless revolution in diabetes monitoring: Scientists have created a non-invasive, adhesive patch, which promises the measurement of glucose levels through the skin without a finger-prick blood test April 10th, 2018

High efficiency solar power conversion allowed by a novel composite material: A composite thin film developed at INRS improves significantly solar cells' power conversion efficiency April 10th, 2018

The latest news from around the world, FREE

  Premium Products
Only the news you want to read!
 Learn More
Full-service, expert consulting
 Learn More

Nanotechnology Now Featured Books


The Hunger Project