Research & Development

   Biotechayur pvt ltd Company at Balasore, Odisha, is the first company to introduce Research, develop and manufacturing of API (Active Pharmaceutical Ingredient) in Odisha as well as in Eastern region.

   Biotechayur R & D deals with the development work and the focus will be on bio-medical health sectors related to Asian/Indian health systems covering traditional and local medical systems (Ayurvedics, Herbals, Yoga, Unani, Siddha etc.) for improving human health. It aims at unleashing the hidden-treasure trove of Indian heritage of traditional medicines as well as Asian, Chinese, and North/South/Latin American medicinal plants to the world by intensive research, pre-and post-clinical evaluation leading to new botanical/phytochemical drug development which will help in opening new avenues for the mankind to get closer to the Mother Nature.

Biotechayur R&D division is going to establish itself as a pioneer in preparing new phytoceuticals, will conduct the preclinical and clinical trials for the safety and efficacy of various products. Extraction and isolation of identified valuable phytochemical from various herbs will create ample opportunities for the medicinal herb (organic farming) farmers from local to all over India, to have a economical rendezvous with Biotechayur for a steady state benefit for both party.

The Company's main aim to research, develop the API products from the medicinal herbs available in different parts of Odisha as well as in India.

Our aim is to develop the standard of Ayurvedic medicine, by developing the standards of API products.

R & D Activities

• Pharmacognosy Lab



• Chemistry lab



• Microbiology lab



• Instrumentation lab

High Performance Liquid Chromatography (HPLC) is one mode of chromatography; the most widely used analytical technique. Chromatographic processes can be defined as separation techniques involving mass-transfer between stationary and mobile phases. HPLC utilizes a liquid mobile phase to separate the components of a mixture.

• Eluent bottle (mobile phase)


• Pump


• Injection valve with sample loop


• Column (packed, porous material


• Detector (UV, Fluorescence, Refractometry)

• Separation of mixed components


• Qualitative analysis / Quantitative analysis


• Preparation of interest components

Gas chromatography-mass spectroscopy (GC-MS) is one of the so-called hyphenated analytical techniques. As the name implies, it is actually two techniques that are combined to form a single method of analyzing mixtures of chemicals. Gas chromatography separates the components of a mixture and mass spectroscopy characterizes each of the components individually. By combining the two techniques, an analytical chemist can both qualitatively and quantitatively evaluate a solution containing a number of chemicals.

• Identification and quantization of volatile and Semi volatile organic compounds in complex mixtures


• Determination of molecular weights and (sometimes) elemental ompositions of unknown organic compounds in complex mixtures


• Structural determination of unknown organic compounds in complex mixtures both by matching their spectra with reference spectra and by a priori spectral interpretation Common Applications


• Analysis of industrial products for quality control

Instrument details analytical chemistry is the science of accurate and precise qualitative and quantitative measurements involving chemical systems. Spectroscopy is defined as the interaction of light and matter and has both physical and analytical applications. Physical spectroscopists use emitted light, absorbed light, or scattered light in order to understand the mechanics of a chemical system. Analytical spectroscopists use the same physical processes to determine the content and concentration of the atomic and molecular species present in a chemical system.

NIR spectroscopy is the measurement of the wavelength and intensity of the absorption of near-infrared light by a sample. Near-infrared light spans the 800 nm - 2.5 µm (12,500 - 4000 cm-1) range and is energetic enough to excite overtones and combinations of molecular vibrations to higher energy levels. NIR spectroscopy is typically used for quantitative measurement of organic functional groups, especially O-H, N-H, and C=O. Detection limits are typically 0.1% and applications include pharmaceutical, agricultural, polymer, and Instrumentation.

FT-NIR is excellent alternative traditional identification and classification methods of herbal extracts used in nutraceuticals, cosmetics and pharmaceuticals. NIR spectroscopy is the measurement of the wavelength and intensity of the absorption of near-infrared light by a sample. Near-infrared light spans the 800 nm - 2.5 µm (12,500 - 4000 cm-1) range and is energetic enough to excite overtones and combinations of molecular vibrations to higher energy levels. NIR spectroscopy is typically used for quantitative measurement of organic functional groups, especially O-H, N-H, and C=O. Detection limits are typically 0.1% and applications include pharmaceutical, agricultural, polymer, and Instrumentation.