Surface plasmon resonance, Optical fiber, Fiber optic sensor, Optics and Surface plasmon are his primary areas of study. His studies in Surface plasmon resonance integrate themes in fields like Layer, Indium tin oxide, Biosensor and Analytical chemistry. He combines subjects such as Fiber and Optoelectronics, Refractive index with his study of Optical fiber.
His Fiber optic sensor research includes elements of Doping and Sensitivity. His Core and Localized surface plasmon study in the realm of Optics interacts with subjects such as Sensitivity. In his work, Nanocomposite is strongly intertwined with Graphene, which is a subfield of Surface plasmon.
Banshi D. Gupta mainly investigates Optical fiber, Surface plasmon resonance, Fiber optic sensor, Optoelectronics and Optics. His Optical fiber research integrates issues from Core, Fiber, Thin film, Nanoparticle and Refractive index. Banshi D. Gupta has researched Surface plasmon resonance in several fields, including Layer, Detection limit, Analytical chemistry and Surface plasmon.
His study in Surface plasmon is interdisciplinary in nature, drawing from both Indium tin oxide and Silicon. His Fiber optic sensor study incorporates themes from Nanocomposite, Photonic-crystal fiber and Localized surface plasmon. Banshi D. Gupta interconnects Absorbance, Resonance, Substrate and Biosensor in the investigation of issues within Optoelectronics.
His main research concerns Optical fiber, Surface plasmon resonance, Optoelectronics, Fiber optic sensor and Detection limit. The concepts of his Optical fiber study are interwoven with issues in Nanoparticle, Nanocomposite, Nanotechnology, Biosensor and Fiber. His research in Fiber intersects with topics in Core and Silver nanoparticle.
His work deals with themes such as Absorbance, Analytical chemistry, Carbon nanotube and Graphene, which intersect with Surface plasmon resonance. Banshi D. Gupta has included themes like Layer and Substrate in his Optoelectronics study. His Fiber optic sensor study improves the overall literature in Optics.
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Fiber-Optic Sensors Based on Surface Plasmon Resonance: A Comprehensive Review
A.K. Sharma;R. Jha;B.D. Gupta.
IEEE Sensors Journal (2007)
Surface Plasmon Resonance-Based Fiber Optic Sensors: Principle, Probe Designs, and Some Applications
Banshi D. Gupta;Rajneesh Kumar Verma.
Journal of Sensors (2009)
On the performance of different bimetallic combinations in surface plasmon resonance based fiber optic sensors
Anuj K. Sharma;B. D. Gupta.
Journal of Applied Physics (2007)
Sensitivity evaluation of a multi-layered surface plasmon resonance-based fiber optic sensor: a theoretical study
B.D. Gupta;Anuj K. Sharma.
Sensors and Actuators B-chemical (2005)
Sensitivity enhancement of a surface plasmon resonance based biomolecules sensor using graphene and silicon layers
Roli Verma;Banshi D. Gupta;Rajan Jha.
Sensors and Actuators B-chemical (2011)
SPR based fibre optic ammonia gas sensor utilizing nanocomposite film of PMMA/reduced graphene oxide prepared by in situ polymerization
Satyendra K. Mishra;Sandeep N. Tripathi;Veena Choudhary;Banshi D. Gupta.
Sensors and Actuators B-chemical (2014)
Fibre-optic evanescent field absorption sensor based on a U-shaped probe
B. D. Gupta;H. Dodeja;A. K. Tomar.
Optical and Quantum Electronics (1996)
Detection of heavy metal ions in contaminated water by surface plasmon resonance based optical fibre sensor using conducting polymer and chitosan
Roli Verma;Banshi D. Gupta.
Food Chemistry (2015)
Surface plasmon resonance based tapered fiber optic sensor with different taper profiles
Rajneesh K. Verma;Anuj K. Sharma;B.D. Gupta.
Optics Communications (2008)
On the sensitivity and signal to noise ratio of a step-index fiber optic surface plasmon resonance sensor with bimetallic layers
Anuj K. Sharma;B.D. Gupta.
Optics Communications (2005)
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