MIS research directions: A survey of researchers' views

Several studies have addressed important issues for MIS Research, but until now no empirical studies have been conducted to asses how MIS researchers themselves view the relatively new field. This survey of 397 MIS researchers revealed preferences for research methods and current areas of concentration, current studies being conducted, publication history, and other factors of interest. It found the subjects' assessment of the quality of MIS research relatively low and that they feel there is an overemphasis on transient topics, rather than on topics of lasting significance. There is continuing evidence of fragmentation in the field. Few MIS researchers appear to rely on research frameworks. However, there is overall optimism that the quality of MIS research has been improving, and will continue to improve in the future. Implications for the future of MIS research are then discussed. © 1991, ACM. All rights reserved

Dye Sensitized Solar Cell (DSSC) greenhouse shading: new insights for solar radiation manipulation

Energy crisis is the worldwide main concern since fossil fuels are facing rapid depletion and its consumption contributes to the rise in the average global temperature. Among the challenges to be embedded lately with agricultural activities is to explore clean and renewable energy resources. Electrical energy generation via solar technology, or known also as photovoltaic (PV) technology, has been the most economical viable green resource, especially in tropical-based countries. The most notable problem revealed by conventional PV in greenhouses, however, is due to the antagonistic factor lying in both photovoltaic roofs and plants. As such, the divergence subsequently decreases the growth and productivity of the cultivated crops. The Dye Sensitized Solar Cell (DSSC) is thus of great importance to human as it possesses several attractive features. For instance, the fabrication of DSSC is cheap. It is also flexible, transparent, and sensitive to low light levels. Besides its easiness to be used in larger applications, makes DSSC an ideal candidate that could function greatly as energy buildings. This review article aims to explore the DSSC technology's potential and its effectiveness as a shading greenhouse. Further, indepth understanding on the uniqueness and advantages of this technology is thoroughly assessed. In comparison to conventional PV, the DSSC technology especially on solar radiation manipulation through the optimum choice of photosensitizer is well described. This paper also consolidates all the materials employed for DSSC fabrication for greenhouse shading. Detailing photosensitizer and light harvesting within PAR wavelength for sustenance growth have been provided. This technology has the potential to improve farming productivity while contribute to a significant reduction of CO2 emission