This book identifies the next generation chemical additives for eight selected industries. The text also provides methods for their preparation, additive treatment levels, and testing methods to evaluate additive performance.--
The objective of this book is to convey to academic and industrial researchers and students advances in synthetic and characterization methods in 9 selected areas of polymer chemistry reported in 2007-2008 US Patents. It reviews the impact of newer bulk anionic, cationic, and free radical polymerization methods within selected industrial applications. Bulk and surface crosslinking agents using selected bi- and tri-functional reagents, photochemical methods, or free radical agents are also reviewed. Finally, there is a separate section on cationic and cationic ring opening polymerization reactions describing di- and tri-heterocyclic monomers and their use in medical devices.
A look at where novel polymer chemistry is heading Covering patent literature and process improvements in twenty-four polymer subject areas, Patent Applications: A Tool for Identifying Advances in Polymer Chemistry R &D provides researchers with current polymer research not yet published in journals or patents. The review and analysis by the author offers a more thorough understanding and concise package of the patent application. In addition extensive structure depictions of intermediates, products, and derivatives allow the researcher to better visualize material applications both in and beyond polymer chemistry. The coverage includes the following polymeric categories: Additives Adhesives Cosmetics Crystalline Materials Dyes Electrically Active Polymers Energetic Polymers Engineered Plastics Fibers Fuel Cells Improved Synthetic Methods Initiators/Modifiers Light Emitting Polymers Medical Polymers Nitric Oxide Releasing Agents Optical Pharmaceuticals Photoresists Phototherapy Recording Materials Stents Sutures Tissue Replacement Viscoelastic Polymers With this thorough and accurate survey, DeRosa provides a practical resource for polymer and organic chemists, as well as graduate students, to identify research and market trends, and to stay up-to-date on current developments in the field.
Significant Pharmaceuticals Reported in US Patents identifies the next generation of pharmaceuticals reported in US Patents. This "hands-on" title provides explicit laboratory methods for preparing the most recent and effective medications. Each entry documents the biological testing protocols used to evaluate a drug and the significance of the current treatment agent over previous methods. Pharmaceuticals are included in this review only if at least two of the following criteria were met: Effectiveness in treating an illness, Innovative, ease of preparation, synergy with existing Medications. Pharmaceuticals are reported for 27 separate classes of illness, including: AIDS, Alzheimer's Disease, Cardiovascular Disorders, Diabetes, Epilepsy, Hepatitis C, Osteoporosis, Obesity and Sleep Disorders. Significant Pharmaceuticals Reported in US Patents has been designed to be used as both a reference and synthetic guide for pharmaceutical, medicinal and organic chemists and graduate students. Researchers working in other areas will also find the information valuable as in many instances intermediates or the next generation pharmaceutical are readily convertible into other industrial products including: anti-oxidants, chemical additives, herbicides, polymer precursors, water purification agents. Clear structural depictions of reagents and chemical transformations have been supplied to permit the identification of other future applications. Identifies next generation pharmaceuticals Provides practical preparation methods for each active agent and derivatives Documents the analytical characterization and biological testing results of active agents
Advances in Synthetic Organic Chemistry and Methods Reported in US Patents provides synthetic guidelines for preparing current and commercially significant organic compounds, derivatives, and intermediates as reported in issued US Patents. Industries surveyed include agrochemical, cosmetics and personal care products. Each entry contains extensive information such as explicit laboratory directions for preparing all chemical intermediates and characterization data. Furthermore, product optimization studies, industrial preparation, and new synthetic methods have been included for selected entries, as well as projected research directions for future product development. In Advances in Synthetic Organic Chemistry and Methods Reported in US Patents the author's practical approach enables readers to identify research and market trends, and stay up-to-date on current developments in the field. - Provides synthetic guidelines for preparing current and commercially significant organic compounds, derivatives, and intermediates as reported in issued US Patents - Identifies product development trends to help determine research areas - Elucidates use of the US Patent and Trademark Office database
Twenty-four years ago, Hellmut Fritzsche came to our laboratory to evaluate our work in amorphous materials. He came many times, sometimes bringing his violin to play with our youngest son, to talk, to help, to discover, and to teach. The times with him were always exciting and rewarding. There was a camaraderie in the early years that has continued and a friendship that has deepened among Iris and me and Hellmut, Sybille and their children. The vision that Hellmut Fritzsche shared with me, the many important contributions he made, the science that he helped so firmly to establish, the courage he showed in the time of our adversity, and the potential that he recognized put all of us in the amorphous field, not only his close friends and collaborators, in his debt. He helped make a science out of intuition, and played an important role not only in the experimental field but also in the basic theoretical aspects. It has been an honor to work with Hellmut through the years.
Cutting-edge advances in green chemistry Based on data from the United States Patent and Trademark Office, Engineering Green Chemical Processes describes sustainable breakthroughs in chemical research and industrial engineering. The chemical agents and polymers described in this book were synthesized without the use of petrochemicals as reagents. Instead, they were obtained solely through synthetic methods which minimize or eliminate chemical waste, require minimum energy input, and use renewable materials. Emerging synthetic selections currently under investigation in both academic and industrial research facilities worldwide are also discussed in this pioneering work. Applications covered include: Antibiotics Automotive Biosolvents Candles Chemical additives Coatings Cosmetics Detergents Diesel fuel Eyeglasses Fibers Food packaging Gasoline Industrial chemicals Lubricants Nanoparticles Paint Photosensitive additives Plasticizers Polymers Remediation processes Roadway repairs Surfactants Thermoplastics Toners
The objective of this book is to convey to academic and industrial researchers and students advances in synthetic and characterization methods in 9 selected areas of polymer chemistry reported in 2007-2008 US Patents. It reviews the impact of newer bulk anionic, cationic, and free radical polymerization methods within selected industrial applications. Bulk and surface crosslinking agents using selected bi- and tri-functional reagents, photochemical methods, or free radical agents are also reviewed. Finally, there is a separate section on cationic and cationic ring opening polymerization reactions describing di- and tri-heterocyclic monomers and their use in medical devices.
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