C. Anandharamakrishnan’s research while affiliated with National Institute for Interdisciplinary Science and Technology and other places

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Publications (48)


Outline of SC‐CO2 extraction process and different factors affecting the process efficiency at various stages.
The solubility of palm kernel oil (PKO) obtained during SC‐CO2 extraction, with respect to crossover point, pressure, and temperature (Setianto et al., 2013). Source: CC BY‐NC 4.0.
The distribution coefficients (Ki) of compounds separated from (a) soy deodorizer distillate at 80°C and (b) crude palm oil at 67°C through SC‐CO2 extraction with respect to pressure. Source: Adapted and edited from Elsevier (Gast et al., 2005).
The fractionation of (a) carotene and vitamin E, and (b) sterols and squalene from palm‐pressed fiber oil using SC‐CO2 extraction at 40°C and pressures at 10 MPa for 3 h, 20 MPa for 1 h, and 30 MPa for 6 h. Source: Adapted and edited from Elsevier (Lau et al., 2008).
Advances and challenges in the fractionation of edible oils and fats through supercritical fluid processing
  • Article
  • Publisher preview available

September 2024

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50 Reads

A. A. Gigi

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Ug. Praveena

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Prasanth S. Pillai

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C. Anandharamakrishnan

Petrochemical solvents are widely used for the extraction and fractionation of biomolecules from edible oils and fats at an industrial scale. However, owing to its safety concerns, toxicity, price fluctuations, and sustainability, alternative solvents and technologies have been actively explored in recent years. Technologies, such as ultrasound and microwave‐assisted extraction, supercritical carbon dioxide extraction, supercritical fluid fractionation, and sub‐critical water extraction, and solvents, like ionic liquids and deep eutectic solvents, are reported for extraction and fractionation of biomolecules. Among them, supercritical carbon dioxide extraction and fractionation are some of the most promising green technologies with the potential to replace petrochemical‐based conventional techniques. The addition of cosolvents, such as water, ethanol, and acetone, improves the extraction of amphiphilic and polar compounds from edible oils and fats. Supercritical fluid processing has diverse applications, including concentration of solutes, selective separation of desired molecules, and separation of undesirable compounds from the feed material. Temperature, pressure, particle size, porosity, flow rate, solvent‐to‐feed ratio, density, viscosity, diffusivity, solubility, partition coefficient, and separation factor are the fundamental factors governing the extraction and fractionation of desired biomolecules from lipids. Supercritical fluids stand alone compared to conventional fluids, because of their tunable solvent properties. Overall, it is to be noted that supercritical fluid‐based methods have lots of scope to replace conventional solvent‐based methods and progress toward the creation of sustainable food‐processing techniques. This review critically evaluates the parameters responsible for the extraction and fractionation of biomolecules from edible oils and fats under supercritical conditions.

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Factors affecting plastic disintegration and common areas of micro-/nano-plastics (M/NPs) contamination
Common polymers of micro-/nano-plastics (M/NPs) identified using different optical probes and detection techniques
a Gold nanoparticle – peptide sensor (Behera et al. 2023), b Ag@TiO2 sensor for hand-held refractometer (Li et al. 2024), – c Fluorescence pulse based sensor (Pizzoferrato et al. 2023) d Speckle patterns based sensor (Asamoah et al. 2019)
Optical detection probes and sensors for micro-/nano-plastics

August 2024

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93 Reads

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2 Citations

Plastics and other polymer-based compounds are inevitable in our day-to-day life starting from packaging to consumer goods. Awareness about recycling plastics is all known; however, it is not sufficient to contain their negative effects on the environment and health. Disintegration products of plastic called micro- and nano-plastics (M/NPs) are increasingly found in food and environmental samples, which are considered to be an invisible threat with greater impact. Yet, there are no comprehensive regulations to monitor the M/NPs in food and water samples. Considering their harmful effects, there is a need for appropriate detection techniques to effectively identify and quantify the M/NPs in food and environment. Conventional techniques such as the Fourier transform infrared spectroscopy, Raman spectroscopy and scanning electron microscopy are expensive, require lab and labor, and are not suitable for on-field real-time monitoring. Optical detection techniques using various probes and sensors have been extensively used in the fields of bioimaging, biosensing, molecular fingerprinting etc. Recent research suggests that these probes and sensors are effective in detecting and quantifying the M/NPs. In this regard, the distinctive features of visual, colorimetric and plasmonic detection techniques have proved their high-end applicability. Most of these detectors are based on the principles of fluorescence, localized surface plasmon resonance, colorimetry, surface-enhanced Raman spectroscopy and speckle pattern analysis. This review discusses the recent advancements in the field of optical detection for M/NPs, summarizing its advantages, salient features, drawbacks, and ideas for future research.



Computational Modelling of Hydration Kinetics of Paddy

April 2024

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6 Reads

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2 Citations

Journal of Agricultural Engineering (India)

The soaking stage of parboiling is a critical unit operation that demands a cautious time-temperature relationship, which has direct implications on post-parboiling grain quality. This study aimed to two-dimensional computationally model moisture intake characteristics of paddy (var. ADT-39) when soaked at three different temperatures (60, 56 and 70 ºC). Fickian diffusion was considered and hydration rates were found to be significantly temperature dependent, and were higher during the first 1 h soaking period, and the first 300 s period in specific, corresponding to moisture diffusion across the husk layer. Predicted values were validated against experimental results and were found to be in the acceptable range. This approach is simple, quick and can be extended as a tool to better understand the soaking process of food grains.








Citations (24)


... With the rapid development of industrialization and the rise of big data, gas monitoring has been widely used in high-demand sectors such as environmental protection, medical health, military aerospace, life safety, and industrial production [1][2][3][4]. Accordingly, the necessary chemiresistive, electrochemical, optical and thermal conductivity gas sensors are constantly being researched and developed [5][6][7][8]. Among them, semiconductor gas sensors have become the most widely used gas sensors due to their small size, high sensitivity, low cost and simple manufacturing process [9][10][11][12][13][14]. Semiconductor gas sensors convert details of target gases into electrical signals based on the charge transfer that occurs during chemisorption between the target gases and the sensitive materials. ...

Reference:

Advances in Gas Detection of Pattern Recognition Algorithms for Chemiresistive Gas Sensor
Optical detection probes and sensors for micro-/nano-plastics

... The use of MAP involves the use of O 2 , CO 2 and N 2 in ratios that differ to normal atmospheric air. These altered concentrations retard deterioration processes and maintain foods in a " fresh " state for extended periods of time [8]. Reduced oxygen levels, to that found in air, is commonly applied to oxygen-sensitive food packaging in order to reduce or delay oxidation reactions in foods. ...

Smart and Intelligent Packaging of Foods
  • Citing Chapter
  • January 2024

... In the realm of modern agriculture and commercial farming, technological advancements have become imperative for maximizing efficiency, productivity, and quality. Among the myriad of innovations, the integration of piezoelectric sensors and programmable logic controllers (PLCs) stands out as a promising solution for fruit sorting [1]. This introduction will develop into the rationale behind employing such technology, elucidating its significance and the pressing need for its adoption in agricultural practices. ...

Robotics and Automation in the Food Industry
  • Citing Chapter
  • January 2024

... Instances of fraud and misrepresentation pose threats, eroding trust in food labels and the authenticity of products (Ehmke et al., 2019;Visciano and Schirone, 2021). Additionally, verifying and tracking the traceability of food from its source to retail shelves remains a formidable task (Drishya et al., 2024). Regrettably, unscrupulous actors may engage in greenwashing, falsely attributing ethical and environmental credentials to food labels to mislead sustainability-focused consumers (Boncinelli et al., 2023;Nygaard, 2024). ...

Block Chain Management for the Food Industry
  • Citing Chapter
  • January 2024

... Additionally, the difficulty in acquiring accurate, high-resolution 3D scans of food microstructures limits the ability to fully capture these complex interactions [95]. These challenges underscore the need for further research and development in multi-scale modeling approaches to more accurately simulate the diverse physical phenomena in food processing [154,155]. ...

Modeling and Simulation of 3D Food Printing Systems—Scope, Advances, and Challenges

Foods

... Furthermore, new technologies are required, including irradiation, electrohydrodynamic processing, pulsed electrical field, high hydrostatic pressure, and UV decontamination, to ensure the safety of soil-grown products, and their processed ingredients (Alighourchi, Barzegar, & Abbasi, 2008). Among them, the ease of incorporating nanomaterials into food, nutraceuticals, or pharmaceuticals using electrospinning allows the protection of bioactive materials such as colorants and presents promising results in the area of health-oriented product development (Kavimughil, Maria Leena, Moses, & Anandharamakrishnan, 2023). For this purpose, gelatin, which is known to be a biocompatible and biodegradable polymer, was selected as a wall material. ...

Electrospining and electrospraying technologies for nutraceutical delivery system development
  • Citing Chapter
  • January 2023

... Conventional extraction methods such as maceration, soxhlet, and hydrodistillation are employed during the extraction of bioactive compounds from plants [20]. However, other non-conventional extraction methods, including enzyme, pulse electric field, supercritical fluid, ultrasound, microwave, and pressured liquid extraction, gained attention with high efficiency and reduction of the environmental impact compared to conventional extraction methods [21]. ...

Extraction of bioactive compounds
  • Citing Chapter
  • January 2023

... Posterior al reconocimiento de la funcionalidad de los alimentos por Japón, diversos países, instituciones y científicos han propuesto sus definiciones, sin que exista hasta la actualidad una definición mundialmente consensuada (Domínguez-Díaz et al., 2020b;Subramanian y Anandharamakrishnan, 2023). No obstante, las definiciones aportadas por EUA, Europa e instituciones internacionales, consideran su funcionalidad cuando se ha demostrado que los alimentos o ingredientes alimenticios brindan beneficios adicionales a la salud, más allá de los nutricios o de la nutrición básica, demostrando sus efectos en una o más funciones para mantener el estado de salud óptimo y/o reducir el riesgo de enfermedad; además de ser consumidos en cantidades usualmente ingeridas (Domínguez-Díaz et al., 2020b;Rana, 2022). ...

Introduction to functional foods and nutraceuticals
  • Citing Chapter
  • January 2023

... During fermentation, microorganisms proliferate rapidly, outnumbering initial contaminants (L. Roy et al., 2023) [3] . While the traditional preparation of idli is elaborate, the demand for convenience has led to the popularity of readymade wet idli batters and instant mixes in Indian markets. ...

Effect of composition on the structure and digestibility of starch in Idli batter

... The potential of involving biosensing systems and nutritional biomarkers to assess astronauts' health and print foods based on real-time requirements is promising. Recently, studies reported the scope of using wearable microfluidic sensors (Nimbkar et al., 2022), mobile-based electrochemical sensors (Sempionatto et al., 2021), nano architectonics (Vaghasiya et al., 2023) with capabilities for monitoring the health of individuals. These technologies are excellent candidates to bridge the gap between digital and biochemical analyses and can be implemented for a successful delivery of personalized nutrition for crew members. ...

Microfluidic assessment of nutritional biomarkers: Concepts, approaches and advances
  • Citing Article
  • December 2022