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1. Understanding the affinity of Cyphos Nitrate for Zr(IV) over other metal ions present in simulated high level liquid waste compositions

Author

Alok Rout, S. Sriram, and N. Ramanathan

Subjects
Ionic liquid, Cyphos nitrate, Zirconium(IV), SHLLW, Separation, Chemistry, QD1-999
Abstract

The presence of Zr(IV) in the spent nuclear fuel (SNF) is an hindrance for a smooth and safe reprocessing of actinides and other fission products. The separation of Zr(IV) from nitric acid feed through solvent extraction route is a challenging task as far as its aqueous chemistry and the selectivity of the proposed extractants for it is concerned. In this context, we employed a strongly hydrophobic and sustainable quarternary alkyl phosphonium-based ionic liquid (IL): Tri(hexyl)tetradecylphosphonium nitrate ([P66614][NO3]) (or cyphos nitrate) for the extraction of Zr(IV) from a broad range of acidic feed and evaluated the feasibility of its selective separation from a Fast Reactor Simulated High Level Liquid Waste (FR-SHLLW) solution (Burn up: 80 GWd/Te). The extraction factor of [P66614][NO3] was compared with that observed in other classes of ILs in their undiluted condition. The efficient extraction of Zr(IV) without any additional ligand in IL phase by adopting simple complexation mechanism infers the novelty of [P66614][NO3]. High asymmetricity and bulkiness of IL cation enables more freedom to its anion (NO3-) to coordinate with Zr(IV), thereby realizing high extraction factors as compared to other ILs having different cations (or anions). The novelty was further clarified from the notable extraction efficiency by consuming very less IL volume (low IL to aqueous phase ratio). The radiation stability of cyphos nitrate was affirmed from the extraction factors at different exposed doses. The uniqueness of [P66614][NO3] for Zr(IV) over the co-extracting Pd(II) was assured using an aqueous soluble complexing agent for the later to be trapped in the raffinate phase of SHLLW solution. At end, a schematic flow-sheet was proposed for selective separation of Zr(IV) from SHLLW solution.

Published
2025
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2. Cyphos nitrate: A potential ionic liquid for the extraction and selective separation of plutonium (IV) from other metal ions present in nitric acid

Author

Alok Rout and N. Ramanathan

Subjects
Ionic liquid, Cyphos nitrate, Plutonium(IV), Extraction, Separation factors, Chemistry, QD1-999
Abstract

Cyphos nitrate (Trihexyl(tetradecyl)phosphonium nitrate: [P66614][NO3]) is a well-known ionic liquid which is strongly hydrophobic and sustainable for the recovery of metal ions from waste matrix. In the present study, the ionic liquid was explored for the selectively separation of plutonium(IV) from uranium(VI), zirconium(IV), americium(III) and europium(III) present in the nitric acid medium in conjunction with 1,3-diisopropyl benzene (DIPB) as the diluent. The extraction factors of Pu(IV) were evaluated as a function of various experimental parameters such as the concentration of feed acidity, the concentration of ionic liquid, equilibration time, temperature, type of ionic liquid ions, etc. Facile formation of the anionic nitrato complex of Pu(IV) in the ionic liquid phase was found to be the driving force for the preferential extraction of Pu(IV) over other metal ions. Effect of radiation dose suggested the stability of the proposed ionic liquid by acquiring the similar extraction factors like that in the unirradiated ionic liquid phase. Remarkable separation factors of Pu(IV) over the aforementioned metal ions were computed and presented in the paper. Various thermodynamic parameters accompanied by the extraction as well as the back extraction processes of Pu(IV) from the loaded ionic liquid phase have been presented in detail.

Published
2022
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3. Extraction chromatography based separation of zirconium(IV) from simulated high-level liquid waste using N,N-di-octyl-2-hydroxyacetamide impregnated amberlite XAD-7 resin

Author

A.S. Suneesh, B. Robert Selvan, T. Prathibha, S. Sriram, and N. Ramanathan

Subjects
Extraction chromatography, Simulated high-level waste, Metal fuel reprocessing, Zirconium, Solvent impregnated resin, Hydroxyacetamide extractant, Chemical engineering, TP155-156
Abstract

Selective separation of zirconium(IV), from the simulated high-level liquid waste solution containing uranium(VI) and trivalent lanthanides, during reprocessing of fast reactor metal fuel was studied by extraction chromatography using N,N-di-octyl-2-hydroxyacetamide (DOHyA) impregnated on to Amberlite XAD-7 resin. The extraction behavior of Zr(IV), Nd(III) and U(VI) with varying concentrations of nitric acid was explored using a solvent impregnated resin with different compositions of DOHyA in XAD-7 [10, 20, 30, 40 and 50 (w/w) %]. The resin exhibited faster kinetics with more than 99 % recovery of Zr(IV) and with an apparent Langmuir adsorption capacity of ∼54 mg.g−1of Zr(IV) on to the resin phase. Quantitative (> 99%) and selective extraction of Zr(IV) with minimum loading of other trivalents and uranium was observed during column chromatography. Results of the study showed that Zr(IV) can be selectively separated in presence of trivalent lanthanides and U(VI).

Published
2021
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4. Analysis of reproductive traits of broiler rabbits reared in sub-temperate climate of Kodai hills, Tamil Nadu, India

Author

S. Rajapandi, N. Ramanathan, R. Pourouchottamane, A. K. Thiruvenkadan, V. Ramesh Saravana Kumar, P. K. Pankaj, and A.S. Rajendiran

Subjects
litter traits, parity, rabbit, reproductive performance, season, sub-temperate, Animal culture, SF1-1100, Veterinary medicine, SF600-1100
Abstract

Aim: The present study was carried out at Institute Rabbit Farm of Southern Regional Research Centre, Mannavanur, Kodaikanal, Tamil Nadu, India having sub-temperate climate with winter temperature during night hours going below 0°C with an objective of finding the influence of different factors such as breed, year, season and parity on different reproductive traits of broiler rabbits in order to come out with the best strategies for improving the productivity. Materials and Methods: A total of 1793 records (946 White Giant and 847 Soviet Chinchilla) for weight at mating (WM), weight at kindling (WK), gestation length (GL), litter size at birth (LSB) and litter size at weaning (LSW), litter weight at birth (LWB), and litter weight at weaning (LWW) were collected in the period between 2000 and 2009 and the data was analyzed using general linear model option of SAS 9.2. Results: The overall mean GL, WM, WK, LSB, LSW, LWB, and LWW were 31.68±0.04 days, 3.65±0.01 kg, 3.84±0.01 kg, 6.91±0.08, 5.49±0.09, 387.62±4.07 g, and 4.66±0.07 kg, respectively. The breed has significantly influenced GL, WK, LSW, LWB, and LWW. The LSB, LSW, LWB, and LWW were 7.05±0.11, 5.76±0.13, 399.55±5.88 g, and 4.87±0.10 kg, respectively in White Giant and corresponding values for Soviet Chinchilla were 6.78±0.11, 5.22±0.12, 375.91±5.64 g, and 4.46±0.09 kg, respectively. The year of kindling had significantly affected all the reproductive traits under study and is varying over different years. The parity significantly influenced the WM, WK, and LWW. The LWW increased from first (4.16±0.21 kg) to second parity (4.86±0.19 kg) and remained in the same range from third parity onward. WM was significantly higher in spring season (3.72±0.02) than the animals in rainy (3.59±0.02) and winter season (3.65±0.02). Better reproductive performance in terms of higher LSB, LSW, LWB, and LWW as observed in the present study might be due to conducive environmental conditions prevailing in the region. Conclusion: The significant effects of the non-genetic factors like year of kindling on all reproductive traits, season, and parity on some of the traits in rabbit breeds are indications that any future production enhancement strategy must take into consideration the environment by providing additional care, feed supplementation and better shelter management to the rabbits, so that the full genetic potential can be realized.

Published
2015
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5. From catch to consumer: enhancing seafood processing management with Industry 4.0 innovations

Author

Abhirami Subash, Hareesh N. Ramanathan, and Marko Šostar

Subjects
Nutrition. Foods and food supply, TX341-641
Abstract

Abstract The incorporation of Industry 4.0 technologies into the seafood processing sector presents a transformative potential for improving efficiency, sustainability, and transparency throughout the supply chain. This study aims to examine the impact of such technological advancements, including automation, robotics, blockchain, computer vision, AI, and IoT, on the seafood industry's operations, ranging from sorting, cleaning, and packing to quality assessment and product preservation. Conducted through a Systematic Literature Review (SLR) of Web of Science-indexed papers, this research assesses the synergy between innovation and business 4.0 technologies in seafood processing. Our findings suggest that these technologies not only promise enhanced operational efficiency and product quality but also offer sustainable practices through energy-efficient methods, waste management techniques, and innovative packaging solutions. Additionally, the study addresses the workforce implications, underscoring the shift in job roles towards more specialized and value-added positions rather than outright displacement. The primary data collected and analyzed herein underscores the critical role of Industry 4.0 in promoting sustainable resource management, optimizing processes, and ensuring ecological responsibility within the seafood sector, thereby contributing to the broader goals of food security and environmental sustainability.

Published
2024
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6. A Study by PCR on the Prevalence of Whitespot Syndrome Virus, Monodon Baculovirus and Hepatopancreatic Parvovirus Infection in Penaeus monodon Post Larvae in Tamil Nadu, Southeast Coast of India

Author

A. UMA, N. RAMANATHAN, and K. SARAVANABAVA

Subjects
Aquaculture. Fisheries. Angling, SH1-691
Abstract

The present study reports the prevalence of Whitespot syndrome virus (WSSV), Monodon baculovirus (MBV) and Hepatopancreatic parvovirus (HPV) in the Penaeus monodon post larvae in Tamil Nadu, Southeast coast of India. The PCR diagnosis of postlarvae revealed that 9.2% of the samples were infected with WSSV as they were positive either in one step or nested PCR. The PCR diagnosis of samples also showed that 9.6 and 6.4% of the samples screened were positive for MBV and HPV, respectively. Dual infection with MBV and HPV was observed by PCR in 2.6% of the samples screened. Multiple infection with WSSV, MBV and HPV was observed at 1.6% of the samples by PCR. Wet mount squash preparation from the hepatopancreas of postlarvae revealed that 5.5, 5.2 and 1.8% of the samples tested were positive for MBV, HPV and dual infection with MBV and HPV, respectively.

Published
2007
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11. Rapid Deployment with Confidence:Calibration and Fault Detection in Environmental Sensor Networks

Author

N. Ramanathan, L. Balzano, M. Burt, D. Estrin, T. Harmon, C. Harvey, J. Jay, E. Kohler, S. Rothenberg, and M.Srivastava

Abstract

Rapidly deployable sensor networks are portable, reusable, and can take advantage of a human user in the field attending to the deployment. Unfortunately, even small disruptions or problems in collected data must be addressed quickly, as the overall quantity of data gathered is small relative to longterm deployments. In this paper we describe a procedure for calibration and a system for online fault remediation. Care in the calibration process for ion selective electrodes used for water quality assists interpretation of the data. Scientists will have more confidence in the data obtained from a rapid deployment if in-field users can detect and compensate for problems as they occur. We have designed and implemented a tool for use in the field to detect potential faults and provide actions to remedy or validate the faulty data. In January of 2006 we deployed 48 sensors over a period of 12 days in Bangladesh in order to aid in validating a hypothesis on the mass presence of arsenic in the groundwater. Our system is based on the the approximately 25,000 measurements we collected.

Published
2006

12. The Final Frontier: Embedding Networked Sensors in the Soil

Author

N. Ramanathan, T. Schoellhammer, D. Estrin, M. Hansen, T. Harmon, E. Kohler, and M. Srivastava

Abstract

This paper presents the first systematic design of a robust sensing system suited for the challenges presented by soil environments. We describe three soil deployments we have undertaken: in Bangladesh, and in California at the James Reserve and in the San Joaquin River basin. We discuss our experiences and lessons learned in deploying soil sensors. We present data from each deployment and evaluate our techniques for improving the information yield from these systems. Our most notable results include the following: in-situ calibration techniques to postpone labor-intensive and soil disruptive calibration events developed at the James Reserve; achieving a 91% network yield from a Mica2 wireless sensing system without end-to-end reliability in Bangladesh; and the javelin, a new platform that facilitates the deployment, replacement and in-situ calibration of soil sensors, deployed in the San Joaquin River basin. Our techniques to increase information yield have already led to scientifically promising results, including previously unexpected diurnal cycles in various soil chemistry parameters across several deployments.

Published
2006

13. DAS-- Deployment Analysis System

Author

K Chang, N Ramanathan, D Estrin, and J Palsberg.

Abstract

Understanding how a sensor network system works requires running the system, extracting log files, and manually interpreting system metrics. When interpreting system metrics, we often try to correlate behavior over multiple modalities. For example, if a node is exhibiting strange behaviors, the cause may be due to weak battery, geographically bad placement, collision, interference, sensor failure, algorithmic faults, or a combination of the above. This approach of interpreting metrics is adequate for closed systems such as the ones run in simulations, with limited duration. However, for complex sensor network systems that have already been deployed for weeks or even months in the fields, this approach is difficult, laborious, and error-prone. Thus, a suite of tools to help analyze complex sensor network system is desirable. We have implemented Deployment Analysis System (DAS), a centralized data mining suite designed to better understand sensor networks. It supports visualization and deployment-related queries that allow the user to inspect historical system metrics, environmental data, geographical placements, and system status.

Published
2005

15. EmStar Software Environment

Author

L. Girod, T. Stathopoulos, N. Ramanathan, M. Lukac, A. Parker, R. Guy, and D. Estrin

Abstract

EmStar is a software system for developing and deploying wireless sensor networks involving Linux-based platforms. As the wireless sensor network community has attempted to deploy more complex designs---large-scale, long-lived systems that need self-organization and adaptivity---a number of difficult software design issues have arisen. Advances in software design have not kept pace with the capabilities of hardware. This is because designing for an adaptive, efficient, and useful sensor network has turned out to be surprisingly complex and difficult. EmStar is a Linux-based software framework, whose goal is to dramatically reduce this complexity, enabling work to be shared and reused, and simplifying and speeding the design of new sensor network applications.

Published
2005

16. Networked Infomechanical Systems (NIMS)

Author

R. Bandari, J. Burke, V. Chen, W. Chen, W. Gwo, E. Lin, K. Porter, R. Scollans, M. Stealey, L. Wang, E. Yuen, R. Gilbert, J. Gordon, A. Kansal, X. Kong, S. Liu, C. Lucas, R. Pon, M. Rahimi, N. Ramanathan, L. Shirachi, A. Somasundra, J. Tsent, A. Verma, W. Wu, Y. Yu, R. Ambrose, D. Estrin, M. Hamilton, T. Harmon, J. Jay, W. Kaiser, G. Pottie, M. Srivastava, G. Sukhatme, and J. Villasenor

Abstract

Sensor networks have emerged from research on low power, networked, and embedded systems and are now being applied to important scientific issues. Networked Infomechanical Systems, or NIMS, has been developed to exploit infrastructure assisted mobility. With the ability to move and precise knowledge of its own location, NIMS nodes will be able to tackle new areas such as sensing uncertainty, event aware fidelity driven sampling, and active fusion. A brief introduction to each of these fields will be presented. Also included will be a description of the second generation NIMS prototype node currently deployed at the James San Jacinto Mountain Reserve in Idyllwild California and some of the current field biology experiments being undertaken with this technology

Published
2004

17. Development of a chelating ion exchange-based radionuclides removal method for the treatment of routine laboratory organic liquid waste

Author

A. S. Suneesh, Alok Rout, T. Prathibha, B. Robert Selvan, M. Amutha Suba, J. S. Brahmaji Rao, G. V. S. Ashok Kumar, and N. Ramanathan

Subjects
Nuclear Energy and Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Radiology, Nuclear Medicine and imaging, Pollution, Spectroscopy, Analytical Chemistry
Published
2023
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18. Data from Cks1 Regulates cdk1 Expression: A Novel Role during Mitotic Entry in Breast Cancer Cells

Author

Jaideep V. Thottassery, Harish N. Ramanathan, Norman R. Estes, Francis G. Kern, Marina Manuvakhova, and Louise Westbrook

Abstract

Cks1, a small protein whose expression is strongly associated with aggressive breast tumors, is a component of cyclin-cdk complexes, as well as the SCFSkp2 ubiquitin ligase. In these studies, we explored its roles in estrogen receptor–positive breast tumor cells. When exposed to the antiestrogen ICI 182780, these cells accumulate in G1 by reducing the expression of Cks1, and increasing the levels of p130/Rb2, a cdk2 inhibitor and SCFSkp2 target. Heregulin β1 or estradiol abrogate antiestrogen effects by increasing Cks1 expression, down-regulating p130/Rb2 and inducing S phase entry. Depletion of Cks1 in these cells by RNA interference concomitantly decreased Skp2 and up-regulated p130/Rb2 and another SCFSkp2 target, p27Kip1. Remarkably, however, Cks1-depleted cells not only exhibit slowed G1 progression, but also accumulate in G2-M due to blocked mitotic entry. Notably, we show that cdk1 expression, which is crucial for M phase entry, is drastically diminished by Cks1 depletion, and that restoration of cdk1 reduces G2-M accumulation in Cks1-depleted cells. cdk1 reduction in Cks1-depleted cells is a consequence of a marked decrease in its mRNA and not due to alteration in its proteolytic turnover. Both heregulin β1 and estradiol could neither restore cdk1 nor sustain cycling in Cks1-depleted cells, although classical estrogen receptor function remained unaltered. Cks1 depletion also decreased Skp2 in human mammary epithelial cells without altering cell cycle progression. Thus, the indispensability of Cks1 to the breast cancer cell cycle, versus its redundancy in normal cells, suggests that Cks1 abrogation could be an effective interventional strategy in breast cancer. [Cancer Res 2007;67(23):11393–401]

Published
2023
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27. A Sensitive Yellow Fever Virus Entry Reporter Identifies Valosin-Containing Protein (VCP/p97) as an Essential Host Factor for Flavivirus Uncoating

Author

Shuo Zhang, Harish N. Ramanathan, Florian Douam, Katrina B. Mar, Jinhong Chang, Priscilla L. Yang, John W. Schoggins, Alexander Ploss, and Brett D. Lindenbach

Subjects
flavivirus, nucleocapsid, uncoating, viral entry, ubiquitin, VCP/p97, General Works
Abstract

Flaviviruses are enveloped, arthropod-borne, positive-strand RNA viruses that cause significant human disease. While the basic mechanisms of flavivirus entry and fusion are understood, little is known about the postfusion events that precede RNA replication, such as nucleocapsid disassembly. We recently developed a sensitive, conditionally replication-defective yellow fever virus (YFV) entry reporter to quantitively monitor the translation of incoming virus particle-delivered genomes. We validated that viral gene expression can be neutralized by YFV-specific antisera and requires known pathways of flavivirus entry; however, as expected, gene expression from the defective reporter virus was insensitive to a small molecule inhibitor of YFV RNA replication. The initial round of viral gene expression was also shown to require: (i) cellular ubiquitylation, consistent with recent findings that dengue virus capsid protein must be ubiquitylated in order for nucleocapsid uncoating to occur, and (ii) valosin-containing protein (VCP)/p97, a cellular ATPase that unfolds and extracts ubiquitylated client proteins from large macromolecular complexes. RNA transfection and washout experiments showed that VCP/p97 functions at a postfusion, pretranslation step in YFV entry. Together, these data support a critical role for VCP/p97 in the disassembly of incoming flavivirus nucleocapsids during a postfusion step in virus entry.

Published
2020
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28. Unraveling the coordination approach of Eu(<scp>iii</scp>) in cyphos nitrate ionic liquid – a comprehensive luminescence spectroscopy study

Author

Alok Rout, Satendra Kumar, and N. Ramanathan

Subjects
Inorganic Chemistry
Abstract

A luminescent spectroscopy probe is an effective tool to ascertain the precise status of Eu(iii) coordination in the ionic liquid phase. Many of the unrevealed facts in IL based solvent extraction results have been explored by luminescence spectroscopy.

Published
2022
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29. The Impact of COVID 19 Pandemic on Consumer Behavior

Author

Šostar, Marko, Hareesh, N. Ramanathan, Serzhanov, Vitaliy

Subjects
Consumer, behavior, pandemic COVID-19, Internet
Abstract

Consumer behavior is often unpredictable. It includes the actions that consumers take or do not take due to some internal or external influences. The fast pace of life, daily changes in desires and needs, as well as the appearance of new technologies and opportunities on the market, significantly affect consumer behavior. Natural disasters, wars, and pandemics also have a big impact, which significantly change the awareness and behavior of consumers. Consumers become irrational and behave impulsively, while their habits change completely. This paper will research consumer behavior due to the COVID-19 pandemic and the ways in which it has changed over time. A sample of consumer behavior due to the COVID-19 pandemic and other global crises will also be presented.

Published
2023

30. Interplay of unique N⋯π pnicogen and H⋯π/H⋯O hydrogen bonding interactions in the heterodimers of nitromethane with acetylene and benzene as π-electron donors: experimental characterization at low temperatures under isolated conditions with computational corroboration

Author

Nandalal Mahapatra, Swaroop Chandra, N. Ramanathan, and K. Sundararajan

Subjects
Acetylene, Polymers, Temperature, General Physics and Astronomy, Benzene, Hydrogen Bonding, Electrons, Physical and Theoretical Chemistry
Abstract

The existence of unique ON⋯π pnicogen bonding in combination with C-H⋯π/C-H⋯O hydrogen bonding interactions has been experimentally affirmed in the heterodimers of nitromethane with aliphatic (acetylene; NMAc) and aromatic (benzene; NMBz) π-electron donors at low temperatures under isolated conditions. The potential energy surfaces of NMAc and NMBz dimers have been probed for stationary points using

Published
2022

31. Feasibility of Dissolution of U–Zr Alloy in an Acid-Saturated Amide Ligand

Author

N. Ramanathan and Alok Rout

Subjects
Zirconium, Stripping (chemistry), Alloy, Inorganic chemistry, Metals and Alloys, chemistry.chemical_element, Context (language use), Environmental Science (miscellaneous), engineering.material, Metal, chemistry.chemical_compound, chemistry, Mechanics of Materials, Nitric acid, visual_art, Phase (matter), engineering, visual_art.visual_art_medium, Dissolution
Abstract

In the present communication, we have explored the feasibility of the dissolution of U–Zr alloy in an acid-saturated amide-based organic ligand, N,N-dihexyloctanamide (DHOA) in the context of the preparation of the spent metallic fuel dissolver solution. The diverse experimental parameters such as temperature, the concentration of nitric acid, dissolution time, volume of DHOA, etc. were optimized for accomplishing the dissolution process. The present methodology requires less amount of nitric acid for the dissolution of the metalloy as compared to that of direct dissolution in nitric acid medium, and in particular, DHOA strongly influences the dissolution time and the temperature demand for the dissolution process. These added advantages certainly have the edge over the conventional dissolution process. Stripping of the loaded metal ion in DHOA phase and the recycling of DHOA were also ascertained and reported in the paper. Dissolution of U–Zr pellet in the acid-saturated DHOA phase leads to quantitative dissolution of uranium leaving zirconium as the pasty black residue with poor dissolution performance.

Published
2021
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32. E-learning in India and Sri Lanka : A Cross-Cultural Study

Author

Simmy Kurian, Chamaru De Alwis, and Hareesh N. Ramanathan

Subjects
Economic growth, Information Systems and Management, Sociology and Political Science, Higher education, business.industry, Knowledge economy, Developing country, Onboarding, Experiential learning, Globalization, World economy, Political science, Social transformation, business
Abstract

E-learning is a planned effort towards providing interactive and experiential learning having flexibility in terms of time, place, pace, participation and accessibility. Globalization has set the stage for a social transformation of the world economy driven by technological innovation, emphasizing knowledge-based processes. While the tertiary education enrolments in wealthy nations have gone up incrementally, the same cannot be said to be right about developing economies. E-Learning can streamline enrolments to higher education, in developing nations by being a cost-effective and flexible alternative. The objective of this paper is to draw attention to the similarities in the national culture of these two countries and compare students’ perception on e-learning in India and Sri Lanka along eight dimensions viz., viability, dependability, flexibility, inclusivity, power, pertinence, challenge and equitability. The results reveal that e-learning is equally popular among students from both countries, and they have a high perception score towards e-learning on each of the measured eight dimensions. Hence results are indicative of an opportunity of tapping the potential of e-learning in reaching out to a broader audience of underprivileged students and onboarding them into the knowledge economy.

Published
2021
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33. Nitrogen as a pnicogen?: evidence for π-hole driven novel pnicogen bonding interactions in nitromethane–ammonia aggregates using matrix isolation infrared spectroscopy and ab initio computations

Author

Swaroop Chandra, K. Sundararajan, N. Ramanathan, and B. Suryaprasad

Subjects
Materials science, 010304 chemical physics, Hydrogen bond, Atoms in molecules, Matrix isolation, Hypervalent molecule, General Physics and Astronomy, Electron donor, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Crystallography, chemistry, Ab initio quantum chemistry methods, 0103 physical sciences, Molecule, Physical and Theoretical Chemistry, Natural bond orbital
Abstract

The role of nitrogen, the first member of the pnicogen group, as an electron donor in hypervalent non-covalent interactions has been established long ago, while observation of its electron accepting capability is still elusive experimentally, and remains quite intriguing, conceptually. In the light of minimal computational exploration of this novel class of pnicogen bonding so far, the present work provides experimental proof with unprecedented clarity, for the existence of N(acceptor)⋯N(donor) interaction using the model nitromethane (NM) molecule with ammonia (AM) as a Lewis base in NM–AM aggregates. The NM–AM dimer, in which the nitrogen atom of NM (as a unique pnicogen) accepts electrons from AM (the traditional electron donor), was synthesized at low temperatures under isolated conditions within inert gas matrixes and was characterized using infrared spectroscopy. The experimental generation of the NM–AM dimer stabilized via N⋯N interaction has strong corroboration from ab initio calculations. Furthermore, confirmation regarding the directional prevalence of this N⋯N interaction over C–H⋯N and N–H⋯O hydrogen bonding is elucidated quantitatively by quantum theory of atoms in molecules (QTAIM), electrostatic potential mapping (ESP), natural bond orbital (NBO), non-covalent interaction (NCI) and energy decomposition (ED) analyses. The present study also allows the extension of σ-hole/π-hole driven interactions to the atoms of the second period, in spite of their low polarizability.

Published
2021
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43. Prototypical cyclohexane dimers: spectroscopic evidence for σ stacking at low temperatures

Author

Shubhra Sarkar, N. Ramanathan, and K. Sundararajan

Subjects
Work (thermodynamics), Jet (fluid), Materials science, Cyclohexane, 010405 organic chemistry, Atoms in molecules, Stacking, General Physics and Astronomy, Infrared spectroscopy, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Crystallography, chemistry, Physical and Theoretical Chemistry, Molecular beam, Natural bond orbital
Abstract

Owing to the fact that σ stacking is as important as π stacking in determining the structural motifs of aliphatic saturated cyclic hydrocarbons, in this work we have provided the first unambiguous spectroscopic evidence for the existence of σ stacking interactions in cyclohexane dimers at low temperatures. Molecular beam experiments performed using effusive nozzle and supersonic jet sources on cyclohexane in an N2 matrix generated cyclohexane dimers stabilized through σ stacking and the dimers were characterized by infrared spectroscopy. The ab initio computations carried out on cyclohexane dimers identified eclipsed (face-to-face), parallel displaced and T-shaped structures, which are predominantly stabilized by σ stacking interactions. While natural bond orbital analysis substantiated a significant amount of σ → σ* interactions involved in the stabilization, the Atoms in Molecules analysis indicated that the stacking is induced by a plausible 'dihydrogen bonding' interaction. Energy decomposition analysis disclosed that a large measure of dispersion interactions effectively contributes for the overall stability of cyclohexane dimers.

Published
2020
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44. Strong proton-shared hydrogen bonding in a methyl imidazole⋯HCl complex: evidence from matrix isolation infrared spectroscopy and ab initio computations

Author

Shubhra Sarkar, N. Ramanathan, K. Sundararajan, and P. K. Sruthi

Subjects
Hydrogen, Hydrogen bond, Chemistry, Atoms in molecules, Anharmonicity, Binding energy, Matrix isolation, Infrared spectroscopy, chemistry.chemical_element, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Catalysis, 0104 chemical sciences, Materials Chemistry, Physical chemistry, 0210 nano-technology, Natural bond orbital
Abstract

Methyl imidazole (M-Imid)⋯HCl (1 : 1) complexes were studied using matrix isolation infrared spectroscopy and ab initio computations. Computations using the MP2 level of theory with the aug-cc-pVDZ basis set predicted three complexes, where the global minimum had a strong hydrogen-bonded N⋯H⋯Cl interaction with a binding energy of ∼12 kcal mol−1 (complex A). The first local minimum had an H⋯π interaction (complex B) and the second local minimum (complex C) was stabilized through combined hydrogen, halogen and pnicogen bonding (with a nitrogen atom as the pnicogen) interactions. Of the three complexes, the hydrogen-bonded complex A alone possesses experimental significance. Experiments were performed by co-depositing M-Imid and HCl separately in an N2 matrix at a low temperature of ∼12 K. The annealing of the low temperature matrix encouraged the formation of M-Imid–HCl complex A, which was subsequently probed using infrared spectroscopy. Experimentally, the vibrational shift of ∼1720 cm−1 was observed for the N2 matrix, while harmonic frequency calculations indicated a shift of 1063 cm−1 in the H–Cl stretching region of the strong hydrogen-bonded complex A. The inclusion of anharmonicity in the calculations red-shifted the H–Cl stretching frequency further down to 1650 cm−1, which was almost close to the experimental value. It is inferred from this large experimental red-shift of the stretching frequency of the proton donor that proton-shared hydrogen bonding is facilitated in the M-Imid–HCl system experimentally. Using atoms in molecules, energy decomposition and natural bond orbital analyses, the uniqueness of this strong proton-shared hydrogen bonding is established with respect to conventional hydrogen bonding.

Published
2020
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45. FACILITY LAYOUT IMPROVEMENT FOR ENHANCING PRODUCTIVITY: AN APPLICATION OF SYSTEMATIC PLANT LAYOUT

Author

Chacko Pearly Saira, Paul Gritty Maria, and Hareesh N. Ramanathan

Subjects
Facility layout, lcsh:Management. Industrial management, systematic layout planning, relationship diagram, affinity diagram, enhanced productivity, material handling cost, Computer science, lcsh:Marketing. Distribution of products, lcsh:Commercial law, lcsh:K1000-1395, lcsh:HF5601-5689, Systematic layout planning, Manufacturing engineering, lcsh:Accounting. Bookkeeping, lcsh:HD28-70, lcsh:Finance, lcsh:HG1-9999, lcsh:HF5410-5417.5, Productivity
Abstract

One of the major prerequisites for effective operations of a manufacturing plant depends on the sufficiency of a good facility layout. A well-planned facility layout enables better utilization of resources and thereby better production control. The purpose of this research was to analyse the effectiveness of the layout improvement through systematic plant layout planning (SLP) method. Factors like relationship diagram/affinity chart, material flow, space requirements etc. were studied to propose a modified layout according to the SLP method. The study found that the improved plant layout not only optimised the material flow and space requirements but in addition it enormously reduced the material handling cost of the plant thereby bringing better operational efficiency.

Published
2019

46. Screening Legionella effectors for antiviral effects reveals Rab1 GTPase as a proviral factor coopted for tombusvirus replication

Author

Peter D. Nagy, Nikolay Kovalev, Brett D. Lindenbach, Kai Xu, Jun-ichi Inaba, Harish N. Ramanathan, and Craig R. Roy

Subjects
Multidisciplinary, Tombusvirus, biology, Viral replication, Effector, RNA-dependent RNA polymerase, RAB1, biology.organism_classification, Tomato bushy stunt virus, Legionella pneumophila, Host factor, Cell biology
Abstract

Bacterial virulence factors or effectors are proteins targeted into host cells to coopt or interfere with cellular proteins and pathways. Viruses often coopt the same cellular proteins and pathways to support their replication in infected cells. Therefore, we screened the Legionella pneumophila effectors to probe virus-host interactions and identify factors that modulate tomato bushy stunt virus (TBSV) replication in yeast surrogate host. Among 302 Legionella effectors tested, 28 effectors affected TBSV replication. To unravel a coopted cellular pathway in TBSV replication, the identified DrrA effector from Legionella was further exploited. We find that expression of DrrA in yeast or plants blocks TBSV replication through inhibiting the recruitment of Rab1 small GTPase and endoplasmic reticulum-derived COPII vesicles into the viral replication compartment. TBSV hijacks Rab1 and COPII vesicles to create enlarged membrane surfaces and optimal lipid composition within the viral replication compartment. To further validate our Legionella effector screen, we used the Legionella effector LepB lipid kinase to confirm the critical proviral function of PI(3)P phosphoinositide and the early endosomal compartment in TBSV replication. We demonstrate the direct inhibitory activity of LegC8 effector on TBSV replication using a cell-free replicase reconstitution assay. LegC8 inhibits the function of eEF1A, a coopted proviral host factor. Altogether, the identified bacterial effectors with anti-TBSV activity could be powerful reagents in cell biology and virus-host interaction studies. This study provides important proof of concept that bacterial effector proteins can be a useful toolbox to identify host factors and cellular pathways coopted by (+)RNA viruses.

Published
2019
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47. Complexation of Eu(III) with furan monocarboxylates in aqueous medium at variable temperatures: Luminescence and computational studies

Author

Satendra Kumar, K. Sundararajan, S. Maji, and N. Ramanathan

Subjects
Denticity, Chemistry, Ligand, Enthalpy, Biophysics, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Biochemistry, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Absorbance, chemistry.chemical_compound, Furan, Physical chemistry, Density functional theory, 0210 nano-technology, Spectroscopy, Luminescence
Abstract

Luminescence of Eu(III) with furan monocarboxylates (FCA) ligands namely, 2 furoate (2FCA) and 3 furoate (3FCA) have been studied in aqueous medium. Both the ligands sensitized the luminescence of Eu(III) to a different extent. The magnitude of luminescence intensity was higher for the Eu(III)-2FCA than Eu(III)-3FCA complex due to the higher absorbance of 2FCA ligand as corroborated by UV–Vis spectroscopy. The formation of 1:1 Eu(III) complexes with both the ligands was confirmed through luminescence lifetime measurements. Stability constants of these complexes, calculated using HypSpec computation program were found to increase with temperature. The coordination mode of both the ligands was found to be monodentate. Van't Hoff equation was used to calculate enthalpy of formation of Eu(III) complexes using stability constants at different temperatures (283, 298, 313, 328, 343 K). The enthalpy of complex formation of 2FCA and 3FCA with Eu(III) was endothermic. Density functional theory (DFT) and time dependent (TD)-DFT calculations were performed to corroborate experimental observations.

Published
2019
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48. Multidimensional evaluation of mutual funds using performance ratios: a critical examination of technology sector mutual funds in India

Author

Alteena Maria Francis, Thomas Merin, and N Ramanathan Hareesh

Subjects
business.industry, Mutual funds, sharpe ratio, Treynor’s ratio, upside capture ratio, downside capture ratio, Accounting, Business, Critical examination
Abstract

Over the years, a number of performance indicators have been developed and used to assess the performance of mutual funds. The choice of these performance measures completely rests on the perception of the investor as to which measure conveys the information sought after by the investor and which information the investor considers would be meaningful in deciding the fate of his investments. Objective & Methodology: To evaluate the risk and return of selected technology sector mutual funds and to analyse the composite information conveyed by Sharpe’s ratio, Treynor’s ratio, upside and downside capture ratios. Results & Discussion: When the funds were analysed using Sharpe ratio, Treynor’s ratio upside capture ratio and downside capture ratio, the funds that performed the best in consideration to a particular measure may not be termed best when analysed with another performance gauges stressing on the fact that all the ratios should be analysed with an integrated perspective to derive any underlying information on the performance of the fund and that the choice of the benchmark which stands as a basis to assess performance of the fund is crucial.

Published
2019
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49. Perceived Service Quality and Customer Satisfaction: A Missing Link in Indian Banking Sector

Author

Sudhir Rana, Hareesh N. Ramanathan, Bindu K. Nambiar, and Sanjeev Prashar

Subjects
Customer knowledge, Service quality, Customer profitability, Strategy and Management, 05 social sciences, Customer acquisition, Banking sector, Customer value, 0502 economics and business, 050211 marketing, Customer satisfaction, Business, Business and International Management, Marketing, 050203 business & management
Abstract

The purpose of the article is to recognize the moderating effect of customer knowledge on perceived service quality and customer satisfaction through customer value evaluation in the Indian banking sector. This knowledge can considerably streamline the effort banks invest in acquiring the right kind of customers. The results of the study indicated that perceptions of service quality positively impacted customer value evaluation. Moreover, customer knowledge strengthened the relationship that the empathy and responsiveness dimensions of service quality had with customer value evaluation and moderated the relationship that reliability and tangibility dimensions had with customer value evaluation.

Published
2019
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