What is he best known for?
The fields of study Bansi D. Malhotra is best known for:
- Catalysis
- Semiconductor
- Polymer
His research links Thin film with Nanotechnology.
His Thin film study frequently intersects with other fields, such as Nanotechnology.
Biosensor and Glucose oxidase are two areas of study in which Bansi D. Malhotra engages in interdisciplinary work.
In his research, Bansi D. Malhotra performs multidisciplinary study on Glucose oxidase and Biosensor.
His research ties Analytical Chemistry (journal) and Organic chemistry together.
His Analytical Chemistry (journal) study frequently involves adjacent topics like Organic chemistry.
Physical chemistry and Indium tin oxide are commonly linked in his work.
His Indium tin oxide study typically links adjacent topics like Physical chemistry.
His studies link Detection limit with Chromatography.
His most cited work include:
- Application of conducting polymers to biosensors (1436 citations)
- Mediated biosensors (583 citations)
- Nanostructured metal oxide-based biosensors (523 citations)
What are the main themes of his work throughout his whole career to date
Bansi D. Malhotra connects Nanotechnology with Nanoparticle in his study.
He performs integrative Nanoparticle and Nanotechnology research in his work.
His Physical chemistry study frequently draws connections to adjacent fields such as Cyclic voltammetry.
As part of his studies on Cyclic voltammetry, Bansi D. Malhotra often connects relevant subjects like Electrode.
Many of his studies involve connections with topics such as Physical chemistry and Electrode.
In his study, he carries out multidisciplinary Biosensor and Enzyme research.
He integrates several fields in his works, including Enzyme and Biosensor.
He conducted interdisciplinary study in his works that combined Organic chemistry and Polymer chemistry.
He performs integrative study on Polymer chemistry and Organic chemistry in his works.
Bansi D. Malhotra most often published in these fields:
- Nanotechnology (71.23%)
- Physical chemistry (53.77%)
- Biosensor (52.74%)
What were the highlights of his more recent work (between 2016-2022)?
- Nanotechnology (91.67%)
- Biosensor (47.22%)
- Physical chemistry (33.33%)
In recent works Bansi D. Malhotra was focusing on the following fields of study:
His work on Chromatography is being expanded to include thematically relevant topics such as Detection limit and Analytical Chemistry (journal).
His research on Analytical Chemistry (journal) frequently links to adjacent areas such as Chromatography.
Bansi D. Malhotra connects Nanotechnology with Biochemical engineering in his research.
Bansi D. Malhotra integrates Biochemical engineering and Nanotechnology in his research.
He combines Biosensor and Microfluidics in his research.
Bansi D. Malhotra applies his multidisciplinary studies on Microfluidics and Biosensor in his research.
His work blends Physical chemistry and Chemical engineering studies together.
In his research, Bansi D. Malhotra undertakes multidisciplinary study on Chemical engineering and Physical chemistry.
He combines Electrode and Electrochemistry in his research.
Between 2016 and 2022, his most popular works were:
- Microfluidics Based Point-of-Care Diagnostics (165 citations)
- Recent advances in carbon based nanosystems for cancer theranostics (153 citations)
- Cell-based biosensors: Recent trends, challenges and future perspectives (150 citations)
In his most recent research, the most cited works focused on:
- Hydrogen
- Nanotechnology
- Electrochemistry
Cancer therapy, Cancer treatment and Carcinoembryonic antigen are the areas that his Cancer study falls under.
His study brings together the fields of Internal medicine and Cancer treatment.
The study of Internal medicine is intertwined with the study of Cancer therapy in a number of ways.
While working on this project, Bansi D. Malhotra studies both Nanotechnology and Biochemical engineering.
Bansi D. Malhotra performs multidisciplinary study on Biochemical engineering and Nanotechnology in his works.
Bansi D. Malhotra performs integrative Biosensor and Nanoparticle research in his work.
His work often combines Nanoparticle and Biosensor studies.
His work in Composite material is not limited to one particular discipline; it also encompasses Porosity.
Porosity is often connected to Composite material in his work.
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