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Joseph J. Falcetta

Bio: Joseph J. Falcetta is an academic researcher. The author has an hindex of 2, co-authored 2 publications receiving 117 citations.

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Journal ArticleDOI
TL;DR: The use of plastic mulch in agriculture has increased dramatically in the last 10 years throughout the world as mentioned in this paper, due to benefits such as increase in soil temperature, reduced weed pressure, moisture conservation, reduction of certain insect pests, higher crop yields, and more efficient use of soil nutrients.
Abstract: The use of plastic mulch in agriculture has increased dramatically in the last 10 years throughout the world. This increase is due to benefits such as increase in soil temperature, reduced weed pressure, moisture conservation, reduction of certain insect pests, higher crop yields, and more efficient use of soil nutrients. However, disposing of used plastic films, which cause pollution, has led to development of photodegradable and biodegradable mulches. Here we review the use of plastic mulches in agriculture, with special reference to biodegradable mulches. Major topics discussed are (1) history of plastic mulch and impact on crop yield and pest management, (2) limitations of polyethylene mulches and potential alternatives, (3) biodegradable and photodegradable plastic mulches, (4) field performance of biodegradable mulches, and (5) use of biodegradable plastic mulches in organic production. We found that (1) despite multiple benefits, removal and disposal of conventional polyethylene mulches remains a major agronomic, economic, and environmental constraint; (2) early use of photodegradable plastic mulch during the 1970s and 1980s, wrongly named biodegradable mulch films, discouraged adoption of new biodegradable mulch films because they were too expensive and their breakdown was unpredictable; (3) biodegradable plastic films are converted through microbial activity in the soil to carbon dioxide, water, and natural substances; (4) polymers such as poly(lactic acid), poly(butylene adipate-coterephthalate), poly(e-caprolactone), and starch-based polymer blends or copolymers can degrade when exposed to bioactive environments such as soil and compost; (5) with truly biodegradable materials obtained from petroleum and natural resources, opportunity for using biodegradable polymers as agricultural mulch films has become more viable; and (6) the source of polymer and additives may limit use of some biodegradable mulches in organic production. More knowledge is needed on the effect of biodegradable mulches on crop growth, microclimate modifications, soil biota, soil fertility, and yields.

822 citations

Journal ArticleDOI
TL;DR: The pharmaceutical applications of hot-melt extrusion, including equipment, principles of operation, and process technology, are reviewed and the physicochemical properties of the resultant dosage forms are described.
Abstract: Interest in hot-melt extrusion techniques for pharmaceutical applications is growing rapidly with well over 100 papers published in the pharmaceutical scientific literature in the last 12 years. Hot-melt extrusion (HME) has been a widely applied technique in the plastics industry and has been demonstrated recently to be a viable method to prepare several types of dosage forms and drug delivery systems. Hot-melt extruded dosage forms are complex mixtures of active medicaments, functional excipients, and processing aids. HME also offers several advantages over traditional pharmaceutical processing techniques including the absence of solvents, few processing steps, continuous operation, and the possibility of the formation of solid dispersions and improved bioavailability. This article, Part I, reviews the pharmaceutical applications of hot-melt extrusion, including equipment, principles of operation, and process technology. The raw materials processed using this technique are also detailed and the physicochemical properties of the resultant dosage forms are described. Part II of this review will focus on various applications of HME in drug delivery such as granules, pellets, immediate and modified release tablets, transmucosal and transdermal systems, and implants.

771 citations

Journal ArticleDOI
TL;DR: A survey of edible film oxygen and aroma barrier research is presented in this article, where the theoretical basis for oxygen and barrier property determination is introduced and a brief historical per- spective of the development of barrier polymers is presented.
Abstract: Interest in maintaining food quality while reducing packaging waste has encouraged the exploration of the oxygen and aroma transport properties of edible films. This review article introduces the theoretical basis for oxygen and aroma barrier property determination and presents a brief historical per- spective of the development of barrier polymers. The effects of structure and composition on mass transport in edible films are examined and compared with those of the more thoroughly investigated synthetic polymers. A survey of edible film oxygen and aroma barrier research is presented; areas re- quiring additional investigation are suggested, for applications as well as basic research. The potential of edible films and coatings to provide excellent aroma retention and superior oxygen barrier properties makes this quite a promising area of research for both food and packaging scientists.

648 citations

Journal ArticleDOI
01 Jan 1992-Polymer
TL;DR: In this article, the glass transition temperature (Tg) of polyaniline films in emeraldine base form was determined and characterized for the first time to be in the range of ∼ 105-220°C for the films containing ∼ 16-0% of 1-methyl-2-pyrrolidinone (NMP) residual solvent, respectively.

207 citations

Journal ArticleDOI
01 Oct 2003-Fuel
TL;DR: In this paper, the effect of long-term aging on rheological properties of polymer modified asphalt binders was studied, which resulted in increased asphalt complex modulus at high temperatures.

201 citations