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Understanding intellectual property, safeguarding your ideas Intellectual property is constantly at risk, and the protection of chemical science and technology through the patenting process allows individuals and companies to protect their hard work. But in order to truly be able to protect your ideas, you need to understand the basics of patenting for yourself. A practical handbook designed to empower inventors like you to write your own patent application drafts in conjunction with an attorney, Writing Chemistry Patents and Intellectual Property: A Practical Guide presents a brand new methodology for success. Based on a short course author Francis J. Waller gives for the American Chemical Society, the book teaches you how to structure a literature search, to educate the patent examiner on your work, to prepare an application that can be easily duplicated, and to understand what goes on behind the scenes during the patent examiner's rejection process. Providing essential insights, invaluable strategies, and applicable, real-world examples designed to maximize the chances that a patent will be accepted by the United States Patent and Trademark Office, Writing Chemistry Patents and Intellectual Property is the book you need if you want to keep your work protected.
This book captures the messages from a workshop that brought together research managers from government, industry, and academia to review and discuss the mechanisms that have been proposed or used to assess the value of chemical research. The workshop focused on the assessment procedures that have been or will be established within the various organizations that carry out or fund research activities, with particular attention to the Government Performance and Results Act (GPRA). The book presents approaches and ideas from leaders in each area that were intended to identify new and useful ways of assessing the value and potential impact of research activities.
This Guide aims to assist users in searching for technology information using patent documents, a rich source of technical, legal and business information presented in a generally standardized format and often not reproduced anywhere else. Though the Guide focuses on patent information, many of the search techniques described here can also be applied in searching other non-patent sources of technology information.
This LL.M thesis is a response to the recent decisions of the German Federal Court of Justice on the patentability requirements of selection inventions, namely the Olanzapine and Escitalopram decisions. The thesis provides an overview on the technology and patenting practice, followed by the discussion of jurisprudence on the patentability requirements for selection inventions in major jurisdictions. In particular, the paper examines the novelty and the non-obviousness requirements. As the discussion on the anticipation and obviousness is more contentious in selection inventions, it discusses the issues in view of the two decisions. Post-grant impact of selection inventions and their meanings to the system of patent are explored and some comparative perspectives on selection inventions are discussed. In conclusion, by exploring the significance of granting patents on selection invention to the working of patent system, the paper provides a useful analysis in understanding patentability requirements thereof, beyond the pharmaceutical industry sector. LL.M Thesis. (Series: Munich Intellectual Property Law Center - MIPLC - Vol. 12)
Previous editions, 1st and 2nd, published under titles : 1st (1982) Patents for chemists ; 2nd (1986) Patents in chemistry and biotechnology ; 3rd edition published in 1999.
Introduction -- Defining the public interest in the US and European patent systems -- Confronting the questions of life-form patentability -- Commodification, animal dignity, and patent-system publics -- Forging new patent politics through the human embryonic stem cell debates -- Human genes, plants, and the distributive implications of patents -- Conclusion
Familiarizes the student or an engineer new to process safety with the concept of process safety management Serves as a comprehensive reference for Process Safety topics for student chemical engineers and newly graduate engineers Acts as a reference material for either a stand-alone process safety course or as supplemental materials for existing curricula Includes the evaluation of SACHE courses for application of process safety principles throughout the standard Ch.E. curricula in addition to, or as an alternative to, adding a new specific process safety course Gives examples of process safety in design
This volume assembles papers commissioned by the National Research Council's Board on Science, Technology, and Economic Policy (STEP) to inform judgments about the significant institutional and policy changes in the patent system made over the past two decades. The chapters fall into three areas. The first four chapters consider the determinants and effects of changes in patent "quality." Quality refers to whether patents issued by the U.S. Patent and Trademark Office (USPTO) meet the statutory standards of patentability, including novelty, nonobviousness, and utility. The fifth and sixth chapters consider the growth in patent litigation, which may itself be a function of changes in the quality of contested patents. The final three chapters explore controversies associated with the extension of patents into new domains of technology, including biomedicine, software, and business methods.
Inspired by the opportunities and challenges presented by rapid advances in the fields of retrieval of chemical and other scientific information, several speakers presented at a symposium, The History of the Future of Chemical Information, on Aug. 20, 2012, at the 244th Meeting of the American Chemical Society in Philadelphia, PA. Storage and retrieval is of undeniable value to the conduct of chemical research. The participants believe that past practices in this field have not only contributed to the increasingly rapid evolution of the field but continue to do so, hence the somewhat unusual title. Even with archival access to several of the presentations, a number of the presenters felt that broader access to this information is of value. Thus, the presenters decided to create an ACS Symposium book based on the topic, with the conviction that it would be valuable to chemists of all disciplines. The past is a moving target depending on the vagaries of technology, economics, politics and how researchers and professionals choose to build on it. The aim of The History of the Future of Chemical Information is to critically examine trajectories in chemistry, information and communication as determined by the authors in the light of current and possible future practices of the chemical information profession. Along with some additional areas primarily related to present and future directions, this collection contains most of the topics covered in the meeting symposium. Most of the original authors agreed to write chapters for this book. Much of the historical and even current material is scattered throughout the literature so the authors strived to gather this information into a discrete source. Faced with the rapid evolution of such aspects as mobile access to information, cloud computing, and public resource production, this book will be not only of interest but provide valuable insight to this rapidly evolving field, both to practitioners within the field of chemical information and chemists everywhere whose need for current and accurate information on chemistry and related fields is increasingly important.