Priyanka Chauhan

Powder XRD Technique and its Applications in Science and Technology

The review presents a brief overview of advanced X-Ray Powder Diffraction Technique. It is an indispensable method of material investigation, characterization and quality control. It has many salient features and advantages that promote its wide range use. It has numerous applications that cater to industrial and academic research that ultimately enriches the growth and development of Science and Technology.

GC-MS Technique and its Analytical Applications in Science and Technology

GC-MS is highly effective and versatile analytical techniques with numerous scientific applications to cater the field of applied Sciences and Technology. This review elaborates the significant uses of this technique. It is a very useful for quality control, analytical research, impurity profiling and maintenance for human welfare and development.

Natural Fibers Reinforced Advanced Materials

The increasing environmental concerns and depletion of petroleum resources has forced the researchers around the globe to find new green and advanced materials. In present review, a particular interest was focused on composites, advantages of natural fiber over glass fiber and the effective use of lignocellulosic natural fibers as reinforcement in composites.

Natural Fiber Reinforced Composite: A Concise Review Article

Fiber reinforced composites were in use since ancient times. Due to the disadvantage of the synthetic and fiber glass as reinforcement, the use of fiber reinforced composite gained the attention of the young scientists. The review article explores the use of variable fiber as reinforcement in composites. With the advancement of science and technology the new means of characterization and evaluation of physico-chemico-thermo-mechanical properties of the composite have been used that have explored the new horizon of utilizing them for various applications.

Analytical Method Development and Validation: A Concise Review

Analytical method development and validation are the continuous and inter-dependent task associated with the research and development, quality control and quality assurance departments. Analytical procedures play a critical role in equivalence and risk assessment, management. It helps in establishment of product-specific acceptance criteria and stability of results.Validation should demonstrate that the analytical procedure is suitable for its intented purpose. Design of experiment is a powerful tool for the method characterization and validation. Analytical professionals should be comfortable to use it to characterize and optimize the analytical method. An effective analytical method development and its validation can provide significant improvements in precision and a reduction in bias errors. It can further help to avoid costly and time consuming exercises.

Reprocessing the Natural Fibers to Procure Advanced Materials

Nature and natural resources has offered the mankind with precious gifts for survival and maintenance but with the ever increase in population, pollution and deforestation the sustenance of natural resources is in suspicion. A major part of the land on earth provides us with renewable biomass that mostly degrades with time. Graft copolymerization is a chemical technique to improve the properties of the waste biomass and modify its properties while sustaining the inherent trait. With the advancement of science and research many efforts have been made to modify and improve the synthesis, characterization and evaluation techniques for a better scientific and industrial achievements. The review explores a brief overview of this magnificent engineering, its types and factors that has helped to provides with outstanding results.

Integrated Methodology for Economic Incentive Materials

Nature has gifted mankind with precious resources on earth. A major part of the earth provides us with renewable biomass that mostly degrades with time. Graft copolymerization is a chemical technique to improve the properties of the waste biomass and to modify its properties while sustaining the inherent trait. With the advancement of science and research many efforts have been made to modify the techniques. This review explores a brief overview of this magnificent engineering, its techniques and characterization that has helped to provide with outstanding results for better scientific and industrial achievements.

Natural Fibers and Biopolymer

In recent years, there have been a tremendous increase in interest, research and development in the natural fiber, biopolymers and polymers materials for their use in bio-composite, packaging, agriculture, medicine etc. Many scientists are modifying traditional materials to more user-friendly and novel polymer composites out of naturally occurring materials. Low recycling rates and the high volume of non-degradable plastics have shortened dramatically the life expectancy of current commercial landfills and increased the demand of biodegradable plastic packaging materials. A number of biological materials may be incorporated into biodegradable polymer materials like cellulose, starch and fiber extracted from various plants. The aim behind these judicious and planned efforts are to procure andpromote the biodegradable polymer materials that would reduce the need for the synthetic polymer production while reducing the pollution at a lower cost . This paper provides an insight to the progress in process in the field of the utilization of natural fiber and biodegradable polymer.

Advancement in Technology through Graft Copolymerization

A major part of the land on earth provides us renewable biomass that mostly degrades with time. Graft copolymerization is a chemical technique that improves the properties of the biomass and modifies its properties while sustaining the inherent trait. With the advancement of science and research many efforts have been made to modify the techniques for better scientific and industrial achievements. The review explores a brief overview of this magnificent engineering, various techniques, characterization and changes that have helped to provide useful results and develop the technology.

Bioremediation of Biopolymers

Bioremediation is a need of time and a wise means to utilize biological waste. Naturally occurring biopolymers like collagen, gelatine, clipids, fats, chitin that is processed into chitosan, can be easily modified. Microbial biopolymer feedstocks are major source of Polylactic Acid (PLA) and Polyhydroxy Alkanoates (PHA).