@Research Paper
<#LINE#>Investigating deviation in managerial ambidexterity: the influence of senior team decision making and transformational leadership<#LINE#>Tuba @Ghani <#LINE#>1-6<#LINE#>1.ISCA-RJRS-2017-005.pdf<#LINE#>Comsats Institute of Information Technology Lahore, Pakistan<#LINE#>22/1/2017<#LINE#>4/3/2017<#LINE#>Decision making has an importance in the organization to achieving success in a competitive environment. Senior team made a deliberate decision that has animpact on managerial explorative and exploitative activities. This study developed a theoretical model that that will cover the topic of research as the; theimpact of the senior team decision making with the moderating effect of Transformational leadership on managerial ambidexterity. Data was collected from middle-level managers of retail banks in Lahore, Pakistan. The study employed correlation, regression, and multiple regressions to find the outcomes. Findings identified that a senior team decision making has a significant effect on the managerial ambidexterity. Moreover, this study also finds out there has no significant interaction among senior team decision making and managerial ambidexterity with mode rating role of transformational leadership.<#LINE#>Lubatkin M.H., Simsek Z., Ling Y. and Veiga J.F. (2006).@Ambidexterity and Performance in Small-to Medium-Sized Firms: The Pivotal Role of Top Management Team Behavioral Integration.@Journal of Management, 32(5) 646-672.@Yes$Raisch S. and Birkinshaw J.M. (2008).@Organizational ambidexterity: Antecedents, outcomes, and moderators.@Journal of Management, 34(3), 375-409.@Yes$Mom T.J.M., van den Bosch F.A.J. and Volberda H.W. (2009).@Understanding variation in managers’ ambidexterity: Investigating direct and interaction effects of formal structural and personal coordination mechanisms.@Organization Science, 20(4), 812-828.@Yes$Gibson C.B. and Birkinshaw J. (2004).@The antecedents, consequences, and the mediating role of organizational ambidexterity.@Academy of Management Journal, 47(2), 209-226.@Yes$Eisenhardt K.M., Furr N.R. and Bingham C.B. (2010).@Micro-foundations of performance: balancing efficiency and flexibility in dynamic environments.@Organizationscience, 21(6), 1263-1273.@Yes$O’Reilly C.A. and Tushman M.L. (2008).@Ambidexterity as a dynamic capability: Resolving the innovator’s dilemma.@Res. Organ.Behav., 28, 185-206.@Yes$Cao Qing, Simsek Zeki and Zhang Hongping (2010).@Modeling the joint impact of the CEO and the TMT on organizational ambidexterity.@Journal of Management Studies, 47(7), 1272-1296.@Yes$Jansen J., George G., Van den Bosch F.A.J. and Volberda H.W. (2008).@Senior team attributes and organizational ambidexterity: the moderating role of transformational leadership.@Journal of Management Studies, 45(5), 982-1007.@Yes$Floyd S.W. and Lane P.J. (2000).@Strategizing throughout the organization: Managing role conflict in strategic renewal.@Academy of Management Review, 25(1), 154-177.@Yes$Gupta A.K., Smith K.G. and Shalley C.E. (2006).@The interplay between exploration and exploitation.@Academy of Management Journal, 49(4), 693-706.@Yes$He Z.L. and Wong P.K. (2004).@Exploration vs. exploitation: An empirical test of the ambidexterity hypothesis.@Organization Science, 15(4), 481-494@Yes$Raisch S. and Birkinshaw J. (2008).@Organizational ambidexterity: Antecedents, outcomes, and moderators.@Journal of Management, 34(3), 375-409.@Yes$Nonkaka I. and Takeucho H. (1995).@The Knowledge-Creating Company, Oxford University Press.@New York, NY.@Yes$Jansen J.J.P., Vera D. and Crossan M. (2009).@Strategic leadership for exploration and exploitation: The moderating role of environmental dynamism.@Leadership Quart., 20(1), 5-18.@Yes$Vera D. and Crossan M. (2004).@Strategic leadership and organizational learning.@Academy of Management Review, 29(2), 222-240.@Yes$Sun P.Y. and Anderson M.H. (2012).@The Importance of Attributional Complexity for Transformational Leadership Studies.@Journal of Management Studies, 49(6), 1001-1022.@Yes$Swart J. and Kinnie N. (2010).@Organizational learning, knowledge assets and HR practices in professional service firms.@Human Resource Management Journal, 20(1), 64-79.@Yes$Turner N., Swart J. and Maylor H. (2013).@Ambidexterity in Managing Business Projects: An Intellectual Capital Perspective.@International Journal of Managing Projects in Business, 6(2), 379-389.@Yes$Benner M.J. and Tushman M.L. (2003).@Exploitation, exploration, and process management: The Productivity dilemma revisited.@Academy ofManagement Review, 28(2), 238-256.@Yes$Smith W.K. and Tushman M.L. (2005).@Managing strategic contradictions: a top management model for managing innovation streams.@Organization Science, 16(5), 522-536.@Yes$Amason A.C. (1996).@Distinguishing the effects of functional and dysfunctional conflict on strategic decision making: Resolving a paradox for top management teams.@Academy of Management Journal, 39(1), 123-148.@Yes$Rue L.W. and Byars L.L. (1986).@Management: Theory and Application, Fourth Edition.@IRWIN, 358-362.@Yes$Amabile T.M. (1993).@Motivational synergy: Toward new conceptualizations of intrinsic and extrinsic motivation in the workplace.@Human ResourceManagement Review, 3(3), 185-201@Yes$Zmud R.W. (1982).@Diffusion of Modern Software Practices: Influence of Centralization and Formalization.@Management Sci., 28(12), 1421-1431@Yes$O’Reilly C.A. and Tushman M.L. (2004).@the ambidextrous organization.@Harvard Bus. Rev., 82(4), 74-81.@Yes$Bass B.M. and Avolio B.J. (2000).@Multifactor Leadership, Questionnaire.@Mind Garden, Rewood City, CA.@Yes$Bass B.M., Avolio B.J., Jung D. and Berson Y. (2003).@Predicting unit performance by assessing transformational and transactional leadership.@Journal of Applied Psychology, 88(2), 207-18.@Yes$Bass B.M. (1985).@Leadership and Performance beyond Expectations.@New York: Free Press.@Yes$Yukl G.A. (2009).@Leading Organizational Learning: Reflections on Theory and Research.@Leadership Quarterly, 20(1), 49-53.@Yes$Stasser G. (1999).@A primer of social decision scheme theory: models of group influence, competitive model testing, and prospective modeling.@OrganizationalBehavior and Human Decision Processes, 80(1), 3-20.@Yes$Gu J., Weng Q. and Xie F. (2012).@Leadership, team and decision speed: an empirical study using cross-provincial data.@Chinese Management Studies, 6(4), 598-609@Yes$Edmondson A.C., Roberto M.A. and Watkins M.D. (2003).@A dynamic model of top management team effectiveness: managing unstructured task streams.@The Leadership Quarterly, 14(3), 297-325.@Yes$Flood P.C., Hannan E., Smith K.G., Turner T., West M.A. and Dawson J. (2000).@Chief executive leadership style, consensus decision.@European Journal Of Work And Organizational Psychology, 9(3), 401-420.@Yes$Jansen J. (2005).@Ambidextrous organizations: a multiple-level study of absorptive capacity, exploratory and exploitative innovation and performance.@@Yes$Marabelli M., Frigerio Chiara and Rajola Federico (2012).@Ambidexterity in Service Organizations: Reference Models from the Banking Industry.@Industry and Innovation, 19(2), 109-126.@Yes$Wooldridge B., Schmid T. and Floyd S.W. (2008).@The Middle Management Perspective on Strategy Process: Contributions, Synthesis, and Future Research.@Journal of Management, 34(6), 1190-1221.@Yes
<#LINE#>Traditional worshiping plants from selected sacred groves of Kozhikode District, Kerala, India<#LINE#>Chaithra @M. ,Binu @Thomas <#LINE#>7-13<#LINE#>2.ISCA-RJRS-2017-017.pdf<#LINE#>Department of Botany, St. Joseph College, Devagiri, Kozhikode - 673008, Kerala, India @Department of Botany, St. Joseph College, Devagiri, Kozhikode - 673008, Kerala, India<#LINE#>8/2/2017<#LINE#>15/3/2017<#LINE#>The present paper highlights the religious importance of sacred plants, which are documented from two different sacred groves such as Kanangad kavu and Kavumkara of Kozhikode district, Kerala. During the study, there are about 20 species of plants belonging to 20 genera and 14 families were documented. The religious potentialities of these plants and their role in worshiping god/goddess were also tabulated. The present study also highlights the importance of conserving such sacred patches is an urgent need, because the changes in social belief, modernization and erosion of cultural practices are some of the major factors contributing towards degradation of the ancient institutional heritage.<#LINE#>Ramakrishnan P.S. (1998).@Conserving the sacred for biodiversity: The conceptual framework.@Conserving the sacred for biodiversity management, Central University, Pondicherry.@Yes$Nayar M.P. (1997).@Biodiversity challenges in Kerala and science of conservation biology.@In: P. Pushpangadan and K.S.S. Nair (Eds.), Biodiversity of tropical forests: the Kerala scenario. The State Committee on Science, Technology and Environment (STEC), Govt. of Kerala, 7 – 23.@Yes$Induchoodan N.C. (1996).@Ecological studies on the sacred groves of Kerala.@Ph.D. thesis, Dept. Ecology, Pondichery University, Pondichery.@Yes$Whittaker R.H. (1970).@Communities and Ecosystems.@Macmillan Publishing Co., New York.@Yes$Mohanan C.N. and Nair N.C. (1981).@Kunstleria prain- an new genus record of India and a new species in the genus.@Proc. Ind. Acad. Sci., 90(3), 207-209.@Yes$Unnikrishnan E. (1995).@Sacred Groves of North Kerala-An Ecofolklore Study (in Malayalam).@Jeevarekha, Thrissur, Kerala.@Yes$Bhagwat S.A., Kushalappa C.G., Williams P.H. and Brown N.D. (2005).@The role of informal protected areas in maintaining biodiversity in the western Ghats of India.@Ecol Soc., 10(1), 1-40.@Yes$Pushpangadan P., Rajendraprasad M. and Krishnan R.N. (1998).@Sacred groves of Kerala: a synthesis of art of knowledge.@In: Ramakrishnan, P.S., Saxena, K.G., Chandrashekara, 	U.M. (Eds.) Conserving the sacred for Biodiversity Management. Oxford and IBH Publishing Co., New Delhi. 193 - 210.@Yes$Gadgil M. and Vartak V.D. (1975).@Sacred groves of India: a plea for continued conservation.@J. Bomb. Nat. Hist. Soc., 72(2), 314-320.@Yes$Israel E.I., Viji C. and Narasimhan D. (1997).@Sacred groves: traditional ecological heritage.@Int. J. Eco. Env. Sci., 23(4), 463-470.@Yes$Tiwari B.K., Barik S.K. and Tripathi R.S. (2011).@Sacred groves of Meghalaya.@In: Udayan, P.S., Harinarayanan, M.K., Tushar, K.V. and Indira, B. 2007. Some common plants used by Kurichiar tribes of Tirunelli forest, Wayanad district, Kerala medicine and other traditional users. Ind. J. Trad. Know., 7, 250-255.@Yes$Chandrashekara U.M. (2011).@Conservation and management of sacred groves in Kerala.@Project funded by the Biodiversity Cell, Department of Forests and Wildlife, Government of Kerala. KFRI, Peechi, Kerala.@Yes$Hooker J.D. (2016).@1872-1897.@The Flora of British India, I-VII. Reeve & Co., London.@Yes$Gamble J.S. and Fischer C.E.C. (1915).@The Flora of the Presidency of Madras.@Adlard & Son Ltd., London.@Yes$Sasidharan N. (2004).@Biodiversity documentation for Kerala.@Part-6: Flowering Plants. Kerala Forest Research Institute, Peechi, Thrissur.@Yes$Santapau H. and Henry A.N. (1973).@A Dictionary of the flowering plants in India.@Council of Scientific & Industrial Research, New Delhi.@Yes$Nair H.R., Thomas B., Anish V.B., Antony V.T. and Varghese M.C. (2014).@Religious important sacred plants from selected sacred groves of Kottayam District, Kerala, India.@Bot. Rep., 3, 1-10.@Yes$Jayapal J., Tangavelou A.C. and Panneerselvam A. (2014).@Medicinal plants of PeriyakottaiPattaiyar sacred grove in Pattukottai Taluk at Thanjavur District, Tamilnadu, India.@Int. J. Pharm. Chem. Sci., 3(2), 399-410.@Yes
<#LINE#>Comparative study on biochemical analysis of moth bean (Vigna Acitinifolia) when treated with hot water and HgCl2<#LINE#>Qudsiya @Rafat,Nazia D. @Khan,Zia H. @Khan,S.M. @Mular,Sadiya @Farhat <#LINE#>14-17<#LINE#>3.ISCA-RJRS-2017-026.pdf<#LINE#>Department of Biochemistry, Shri Shivaji College of Arts, Commerce and Science, Akola, MS, India@Department of Biochemistry, Shri Shivaji College of Arts, Commerce and Science, Akola, MS, India@Department of Biochemistry, Shri Shivaji College of Arts, Commerce and Science, Akola, MS, India@Department of Biochemistry, Shri Shivaji College of Arts, Commerce and Science, Akola, MS, India@Department of Biochemistry, Shri Shivaji College of Arts, Commerce and Science, Akola, MS, India<#LINE#>12/5/2016<#LINE#>14/3/2017<#LINE#>The present study aimed at investigating the effects of Hot water and Mercuric chloride on Biochemical parameter of Moth bean. Carbohydrate, Protein and Amylase consequently increase with hot water and HgCl2. The amylase activity at 3rd day of germination was highest in all the treatments hence recommended at 3rd day as optimum period for utilizing moth bean as a diet.  HgCl2 treatment for seed is recommended for germinating moth beans for crop purpose as highest enzymatic activity was observed in 5th day of germination.<#LINE#>Afiukwa C.A., Ibiam U.A., Edeogu C.O., Nweke F.N. and Chukwu U.E. (2009).@Determination of amylase activity of crude extract from partially germinated mango seeds (Mangifera oraphila).@African Journal of Biotechnology, 8(14), 3294-3296.@Yes$Al-Yemeni M.N. (2001).@Effect of cadmium, mercury and lead on seed germination and early seedling growth of Vigna ambacensis L.@Ind. J. Plant Physiol., 6(2), 147-151@Yes$Bernfeld P. (1955).@Amylases,alpha and beta.@Method in enzymology I ,149-158.@Yes$Hedge I.E and Hofreiter B.T. (1962).@Carbohydrate chemistry i7.@Eds.Whistler R. L. In Enzymology10: 447-455.1957.@Yes$Rahman M.M., Banu L.A. and Shahjadee U.F. (2007).@Changes of the Enzymes Activity During Germination of Different Mungbean Varieties.@Bangladesh Journal of Scientific and Industrial Research, 42(2), 213-216.@Yes$Pourakbar L., Khayami M., Khara J. and Farbodnia T. (2007).@Physiological effects of copper on some biochemical parameters in Zea mays L. seedlings.@Pakistan J. of bio. sci., 10(22), 4092-4096.@Yes$Ramakrishna V., Jhansi P. and Ramakrishna R. (2006).@Anti-Nutritional Factors During Germination in Indian Bean (Dolichos lablab L.) Seeds.@World J Dairy Food Sci, 1(1), 6-11.@Yes$Muhammad S. and Amusa N.A. (2003).@Effects of sulphuric acid and hot water treatments on seed germination of tamarind (Tamarindus indica L).@African journal of biotechnology, 2(9), 376-279.@Yes$Ramakrishna V. and Rao R.P. (2005).@Axial control of protein reserve mobilization during germination of indian bean (Dolichos lablab L.) seeds.@Acta Biol Szeged, 49(3-4), 23-27.@Yes
<#LINE#>Scavenging of phenolic compounds from aqueous waste using magnetic nanoparticles activated carbon prepared from date seed<#LINE#>Rinku @Jaiswal,Shripal @Singh,Hemant @Pande <#LINE#>18-27<#LINE#>4.ISCA-RJRS-2017-033.pdf<#LINE#>CIMFR Nagpur Unit-II, 17/C-Telenkhedi area, Civil Lines, Nagpur-440001, MS, India@CIMFR Nagpur Unit-II, 17/C-Telenkhedi area, Civil Lines, Nagpur-440001, MS, India@Hislop College, Civil Lines, Nagpur, MS, India<#LINE#>14/1/2017<#LINE#>11/3/2017<#LINE#>Phenol and its derivatives constitute a group of pollutants that are present in industrial and domestic wastewater and carcinogenic in nature. Adsorption on Magnetic nanoparticles activated carbon (MNAC) has emerged an efficient and economically viable technology for removal of toxic phenolic compounds from domestic and industrial wastewater. In the present study activated carbon (AC) is prepared from date seed using KOH in a modified muffle furnace. The magnetic nanoparticles activated carbon (MNAC) is prepared by combining this   activated carbon with magnetic nanoparticles developed by coprecipitation method. A variety of techniques such as N2-BET surface area, SEM, FT-IR, XRD, TEM, pH pzc and VSM were used to characterize the structure, morphology and magnetic performance of MNAC. The N2-BET surface area of the MNAC (894 m2g-1) is found lesser than the prepared AC (2298 m2g-1). A broad peak at 2&#952; = 240 in XRD of AC & MNAC indicates the presence of amorphous carbon.  The TEM of MNAC shows iron oxide nanoparticles of size 5-20 nm. MNAC exhibits super magnetic properties under external magnetic field with saturation magnetization value 5.52 emu/g at room temperature. The adsorption of priority phenolic pollutants, namely phenol, p-nitrophenol, o-chlorophenol,     o-methoxy phenol on activated carbon and magnetic nanoparticles activated carbon, was studied in a batch system at laboratory scale. The adsorption equilibrium isotherm data shows good linearity when plotted according to Langmuir, Freundlich and BET isotherm equations. The Langmuir Q0 value, for AC & MNAC show the trend: OCP> PNP > OMP >P. Langmuir kinetic model best suits for determination of adsorption and desorption rate constants for these pollutants. The Pseudo-second order model fit better than Pseudo-first order model for the adsorption of organic pollutants onto AC and MNAC.<#LINE#>Singh Shripal and Yenkie Mahesh K.N. (2006).@Scavenging of Priority Organic Pollutants from Aqueous Waste using Granular Activated Carbon.@Journal of the Chinese Chemical Society, 53(2), 325-334.@Yes$Radke C.J. and Prausnitz J.M.J. (1972).@Ind Eng Chem Fundam.@11, 445.@No$Chern J.M. and Chien Y.W. (2003).@Competitive adsorption of benzoic acid and p-nitrophenol onto activated carbon: isotherm and breakthrough curves.@Water Res., 37(10), 2347-2356.@Yes$Fritz W. and Schlünder E.U. (1981).@Competitive adsorption of two dissolved organics onto activated carbon. Pt. 1: adsorption equilibria@Chemical Engineering Science, 36(4), 721-730.@Yes$Srivastava S.K. and Tyagi R. (1995).@Competitive adsorption of substituted phenols by activated carbon developed from the fertilizer waste slurry.@J. Wat. Res., 29(2), 483-488.@Yes$Khan A.R., Al-Bahri T.A. and Al-Haddad A. (1997).@Adsorption of phenol based organic pollutants on activated carbon from multi-component dilute aqueous solutions.@J. Water Res., 31(8), 2102-2112.@Yes$Chilton N., Losso J.N., Marshall Wayne E. and Rao R.M. (2002).@Physical and chemical properties of selected agricultural by product-based activated carbons and their ability to adsorb geomin.@Bioresource technology, 84(2), 177-185.@Yes$Yavuz Cafer T., Mayo J.T., Yu William W., Prakash Arjun,  Falkner Joshua C., Yean Sujin, Cong Lili, Shipley Heather J., Kan Amy, Tomson Mason, Natelson Douglas and Colvin Vicki L. (2006).@Low field magnetic separation of monodispese Fe3O4 nanocrystals.@Science, 314, 964-967.@Yes$Harris P.J.F., Liu Z. and Suenaga K. (2008).@Imaging the atomic structure of activated carbon.@Journal of Physics. Condensed Matter, 20(36), 362201-362206.@Yes$Marel H.W.v.d. and Beutelspacher H. (1976).@Atlas of Infrared Spectroscopy of Clay Minerals    and their Admixtures.@Elsevier: Amsterdam.@Yes$Qu D. (2002).@Studies of the activated carbons used in double-layer supercapacitors.@Journal of Power Sources, 109(2), 403-411.@Yes$Jiles D. (1991).@Introduction to Magnetism and Magnetic Materials.@Chapman and Hall.@Yes$Lanowix IRVING (1918).@The adsorption of gases on plane surface of glass, mica, and platinum.@J.Am. Chem. Soc., 40, 1361-1402.@Yes$Freundlich HMF (1906).@Over the adsorption in solution.@Phys. Chem., 57, 385.@Yes$Todorovic M., Milonjic S.K., Comor J.J. and Gal I.J. (1989).@In Radiation Protection Selected Topics; Dubrovnik Ed. Proceedings of the international radiation protection sysmposium.@Yugoslavia, 654-659.@No
<#LINE#>Photoluminescence spectroscopy of monoclinic SrAl2O4 phosphor<#LINE#>Raunak Kumar @Tamrakar,Kanchan @Upadhyay <#LINE#>28-31<#LINE#>5.ISCA-RJRS-2017-038.pdf<#LINE#>Department of Applied Physics, Bhilai Institute of Technology (Seth Balkrishan Memorial), Near Bhilai House, Durg (C.G.) Pin-491001, India and Department of Chemistry, Shri Shanakaracharya Vidhyalya Hudco (C.G.), Pin-490006, India@Department of Chemistry, Shri Shanakaracharya Vidhyalya Hudco (C.G.), Pin-490006, India<#LINE#>13/11/2016<#LINE#>26/3/2017<#LINE#>Photoluminescence behaviour of monoclinic SrAl2O4 was studied for nano size strontium aluminate SrAl2O4, which was synthesized via solution combustion method (CSM). Structural and morphological properties were confirmed by X-ray diffraction and electron microscopic analysis including scanning electron microscopic method. The crystal size was obtained between 12-19 nm. The emission spectrum was recorded under 254 nm excitation and consist peaks in UV and visible region. The peak in UV region is intense then visible emissions.<#LINE#>Sahu I.P.. Bisen D.P., Brahme N., Tamrakar R.K. and Shrivastava R. (2015)@Luminescence studies of dysprosium doped strontium aluminate white light emitting phosphor by combustion route.@J Mater Sci: Mater Electron, 26(11), 8824-8839.@Yes$Song H., Chen D., Tang W., Peng Y. (2008)@Synthesis of SrAl2O4: Eu2+, Dy3+, Gd3+ phosphor by combustion method and its phosphorescence properties.@Displays, 29(1) 41-44.@Yes$Zhao C., Chen D., Yuan Y. and Wu M. (2006).@Synthesis of Sr4Al14O25: Eu2+, Dy3+ phosphor nanometer powders by combustion processes and its optical properties.@Mater. Sci. Eng. B, 133(1), 200-204.@Yes$Foka K.E., Dejene F.B. and Swart H.C. (2014).@Photoluminescence properties of Ce3+ doped SrAl2O4 prepared using the solution combustion method.@Phys. B, 439, 177-180.@Yes$Tamrakar R.K. and Bisen D.P. (2013).@Combustion synthesis and optical properties of ceria doped gadolinium oxide nano powder.@AIP Conf. Proc., 1536(1), 273-274. doi: 10.1063/1.4810206.@Yes$Tamrakar R.K., Bisen D.P. and Brahme N. (2014).@Characterization and luminescence properties of Gd2O3 phosphor.@Research on Chemical Intermediates, 40(5), 1771-1779.@Yes$Tamrakar R.K., Bisen D.P. and Brahme N. (2014).@Comparison of photoluminescence properties of Gd2O3 phosphor synthesizedby combustion and solid state reaction method.@Journal of Radiation Research and Applied Sciences, 7(4), 550-559.@Yes$Tamrakar R.K., Tiwari N., Kuraria R.K., Bisen D.P., Dubey V. and Upadhyay K. (2015).@Effect of annealing temperature on thermoluminescence glow curve for UV and gamma ray induced ZrO2:Ti phosphor.@Journal of Radiation Research and Applied Sciences, 8(1), 1-10.@Yes$Tamrakar R.K., Bisen D.P. and Upadhyay K. (2015).@Effect of annealing on down-conversion properties of monoclinic Gd2O3:Er3+ nanophosphors.@Luminescence , 30(6), 812-817.@Yes$Tamrakar R.K., Bisen D.P., Sahu I.P. and Bramhe N. (2014).@Raman and XPS studies of Combustion Route Synthesized Monoclinic Phase Gadolinium Oxide phosphors.@Advance Physics Letter, 1(1), 1-5.@Yes$Tamrakar R.K., Bisen D.P. and Sahu I.P. (2014).@Structural Characterization of Combustion Synthesized Gd2O3 Nanopowder by Using Glycerin as Fuel.@Advance Physics Letter, 1(1), 6-9.@Yes$Guinier A. (1963).@X-ray diffraction, Freeman.@San Francisco.@No$Tamrakar R.K. (2012).@Studies on Absorption Spectra of Mn Doped CdS Nanoparticles, (LAP Lambert Academic Publishing, VerlAg.@ISBN 978-3-659-26222-7.@Yes