What is he best known for?
The fields of study he is best known for:
- Surgery
- Organic chemistry
- Internal medicine
Ramakrishnan Parthasarathi mainly investigates Organic chemistry, Computational chemistry, Electrophile, Lignin and Lignocellulosic biomass.
His Computational chemistry study combines topics in areas such as Molar concentration, Open shell, Intermolecular force, Reactivity and Selectivity.
Ramakrishnan Parthasarathi interconnects Quantitative structure–activity relationship, Stereochemistry, Polychlorinated dibenzofurans and Nucleic acid in the investigation of issues within Electrophile.
His study in Lignin is interdisciplinary in nature, drawing from both Raw material and Biotechnology.
His research on Cellulose, Biofuel and Biomass is centered around Lignocellulosic biomass.
His Ionic liquid study also includes
- Solvent which is related to area like Anhydrous, Dissolution, Depolymerization, Yield and Biorefinery,
- Inorganic chemistry that connect with fields like Hydrogen bond.
His most cited work include:
- Minimally Invasive Esophagectomy: Thoracoscopic Mobilization of the Esophagus and Mediastinal Lymphadenectomy in Prone Position—Experience of 130 Patients (335 citations)
- Hydrogen Bonding without Borders: An Atoms-in-Molecules Perspective (284 citations)
- Design of low-cost ionic liquids for lignocellulosic biomass pretreatment (255 citations)
What are the main themes of his work throughout his whole career to date?
His main research concerns Surgery, Computational chemistry, Hydrogen bond, Organic chemistry and Crystallography.
The various areas that Ramakrishnan Parthasarathi examines in his Surgery study include Sleeve gastrectomy and General surgery.
His Computational chemistry study combines topics from a wide range of disciplines, such as Chemical physics, Electrophile and Molecule, Intermolecular force.
His research integrates issues of Ab initio, Electron density and Molecular dynamics in his study of Hydrogen bond.
His is involved in several facets of Organic chemistry study, as is seen by his studies on Lignin, Ionic liquid, Cellulose, Dissolution and Solvent.
His research in Lignin is mostly concerned with Lignocellulosic biomass.
He most often published in these fields:
- Surgery (23.56%)
- Computational chemistry (24.08%)
- Hydrogen bond (26.18%)
What were the highlights of his more recent work (between 2017-2021)?
- Surgery (23.56%)
- Biodiesel (2.62%)
- In silico (3.66%)
In recent papers he was focusing on the following fields of study:
Ramakrishnan Parthasarathi mostly deals with Surgery, Biodiesel, In silico, Quantitative structure–activity relationship and Hernia.
His research brings together the fields of Sleeve gastrectomy and Surgery.
His Sleeve gastrectomy study incorporates themes from Laparoscopic surgery, General surgery and Cosmesis.
His Biodiesel research includes elements of Raw material and Diesel engine.
His Quantitative structure–activity relationship research incorporates themes from Oral toxicity and 3D printing.
His Hernia study which covers Body mass index that intersects with Incidence, Surgical team, Concomitant, Seroma and Recurrent ventral hernia.
Between 2017 and 2021, his most popular works were:
- Performance analysis of DEE-Biodiesel blends in diesel engine (23 citations)
- Emission examination of lemongrass biodiesel and novel nanoparticle blends in research diesel engine (17 citations)
- Detailed study on improving the properties and performance aspects of biodiesel (16 citations)
In his most recent research, the most cited papers focused on:
- Surgery
- Organic chemistry
- Internal medicine
Biodiesel, Diesel engine, Environmental science, Surgery and Oxide are his primary areas of study.
His studies in Diesel engine integrate themes in fields like Ignition system, Fuel efficiency and Jatropha.
His Environmental science investigation overlaps with other disciplines such as Pulp and paper industry, Microwave heating, Diesel fuel, Palm oil and Transesterification.
His Surgery research integrates issues from Body mass index, Incidence and Weight loss.
His Oxide research is multidisciplinary, incorporating perspectives in Nanoparticle and Graphene.
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