Prof Rathinasamy Maria Saleth

Dr Rajkumar Elagiri Ramalingam

Dr Ch Anil Carie

Mr Rajkumar Elagiri Ramalingam

Dr Mudassir Rafi

srm-anil-k-suresh

Dr Anil K Suresh, Associate Professor, Department of Biological Sciences with his team at SRM University-AP has developed a see-through transparent bio-template made from fish scale wastes. The sustainable transparent (over 85% transmittance) bio-template can substitute the use of eco-unfriendly disposal plastic cuvettes for UV-Visible Spectroscopy measurements in the spectrum of 350-900 nm. The path-breaking work to be published in the prestigious Journal of “Green Chemistry” by the Royal Society of Chemistry, is another in the line of extensive, socially, and scientifically relevant research studies that have taken form at SRM University-AP.

The multidisciplinary, research-intensive university since its inception, has emphasized research that has an impact on society. Through projects, collaborations and offering solid support to scholars, it has lived up to its mission of redefining the boundaries of advanced research. The new research by Dr. Suresh and his team comprising Ms Divya Parimi, Mr Chandra Bhatt, Mr Tharun Bollu, Ms Madhura, and collaborators Dr Malli and Mr Jacob is another noteworthy effort in the same vein. Besides minimizing the use of non-biodegradable plastic cuvettes for routine analytics, their bio-template offers many significant benefits.

UV-Vis spectroscopy is a versatile analytical tool used to examine the nature of various synthetic, biological and clinical molecules for pharmaceutical and environmental applications. The analysis is typically performed in a “cuvette or microplate” that is made of expensive quartz or eco-unfriendly plastic materials. The bio-template made from fish scale wastes can not only be an eco-friendly substitute but an effective one too. The team members have clearly demonstrated the practical on-bio template analysis of diverse analytes such as DNA, proteins, nanoparticles, organic dyes, bacteria, BSA assay, and dye-degradations.

Interestingly, the research team also demonstrated the ease in large-scale production of these bio-templates by generating 3000 of them at an affordable price. Dr Suresh, who owns the copyright for the invention after being granted an Indian patent says, “Large-scale development of the bio template can resolve several issues in performing sustainable research.” For starters, it will generate a demand for fish scales, which are usually discarded and can be a cause for foul smell and disease propagation. The use of these bio-templates will also minimize the need for non-biodegradable plastic cuvettes in routine analytics.

Dr Suresh highlights another benefit of the team’s path-breaking research when he says, “Unlike plastic cuvettes that demand a 500-fold analyte, our bio template allows the analysis at shallow 10 microlitre volumes, making it feasible to analyze expensive, rare, and high-risk analytes.” After use, the transparent bio template can be discarded back into the environment without any hesitation, as it is entirely biodegradable. The research that stemmed from the belief that food waste as a bio-resource stratagem has tremendous potential in routine scientific and pharma UV-Vis analytics is living up to that goal.

Dr Suresh is now set to bring the transparent bio-template made from fish scale wastes to the scientific community as a sustainable solution. He is grateful to his team’s efforts and the support he has received from the management at SRM University-AP throughout the research project. “I would like to thank Dr P Sathyanarayanan, President; Prof D Narayana Rao, Pro-Vice-Chancellor, Prof V S Rao, Former Vice-Chancellor and the entire management team for their untiring encouragement, motivation, and support in all my endeavours,” he says as the university “scales” new heights in the world of research, one significant invention at a time.

Dr Pratik Roy

Dr Harish Puppala

career after mtech

As you navigate through subjects like Biological Psychology, Social Psychology, and Cognitive Psychology, you’ll gain profound insights into the intricacies of the human psyche. But the allure of a BSc in Psychology extends far beyond the classroom.

With the demand for clinical and counselling psychologists projected to surge by 11% by 2032, this degree opens doors to a multitude of fulfilling career pathways. Whether you aspire to guide individuals through life’s challenges as a clinical psychologist or provide empathetic support as a counselling psychologist, the opportunities are boundless.

You can join this extraordinary academic odyssey, where you’ll not only expand your intellectual horizons with BSc Psychology subjects but also embark on a rewarding journey of personal and professional growth.

BSc Psychology Subjects Lists

Here’s a list of common subjects typically included in a BSc Psychology programme:

Introduction to Psychology

Biological Psychology

Cognitive Psychology

Developmental Psychology

Social Psychology

Abnormal Psychology

Personality Psychology

Statistics for Psychology

Research Methods in Psychology

Psychological Testing and Assessment

Clinical Psychology

Counselling Psychology

Industrial-Organisational Psychology

Health Psychology

Forensic Psychology

Cross-Cultural Psychology

Neuropsychology

Educational Psychology

Positive Psychology

Environmental Psychology

Keep in mind that the specific subjects offered may vary depending on the university and the curriculum structure of the BSc Psychology programme.

BSc Psychology Syllabus

Given below is the year-wise subject and syllabus of BSc Psychology:

Graduates with a Materials and Manufacturing MTech degree can access rewarding and well-paying positions in areas such as,

    1. Aerospace engineering
    2. Automotive engineering
    3. Biomedical engineering

– that require expertise in materials and manufacturing technology.

The practical knowledge gained from Materials and Manufacturing MTech studies can help develop new materials for use in production pipelines or create innovative manufacturing processes that streamline production times whilst improving quality control, making the Materials and Manufacturing MTech degree beneficial to the individual graduate and employers alike.

  • Surplus Opportunities to Work on Research Projects

Pursuing an MTech degree provides opportunities to work on research projects, which can create networking opportunities and help you hone your skills.

For example, Thermal MTech students get to explore the fascinating field of Thermal engineering, such as Thermal design and Thermal analysis.

They also get to work on projects related to,

    1. Thermal energy management
    2. Thermal systems design
    3. Thermal control systems.
  • The Bright Side of Thermal Engineering

Working on research projects in Thermal engineering can also give students an edge in the industry as it enhances their understanding of Thermal principles and technologies.

Valuable industry experience and essential connections in the Thermal engineering field through their research work.

All these advantages make pursuing an MTech degree worthwhile for those interested in Thermal engineering.

MTech provides invaluable insight into the latest breakthroughs and technologies in your field, helping you stay ahead of the curve.

Studying for an MTech can provide immense advantages for those in the technological field, particularly IoT technologies. Not only does it offer the opportunity to gain higher qualifications and broaden skills, but it can also provide invaluable insight into the latest IoT breakthroughs and technologies, helping students stay ahead of the curve.

  • The Perks of an MTech in VLSI

An MTech in VLSI will allow you to develop advanced knowledge and skills, making a VLSI engineer highly sought after in many industries. As a VLSI engineer, you can work with hardware design, device fabrication, circuit design and debugging, amongst other skills, which will give you a competitive edge over other job applicants.

  • Possibilities of the Internet of Things (IoT)

Mtech after Btech

IoT (Internet of Things) related coursework provides students with comprehensive technical and practical insight into IoT systems development. Technical topics like IoT architecture, IoT standards and IoT security are taught in detail, enabling those who complete the program to gain specialised knowledge in the IoT domain.

Furthermore, the programme also typically offers a research-based thesis which enables students to apply their IOT skills to real-world problems. In this way, MTech programmes provide an excellent opportunity for students to understand IoT systems and technologies deeply.

What to Expect From an MTech Degree?

    1. Opportunity to develop their professional skills through hands-on projects and internships
    2. Opportunity to become experts in Data Science and its associated technologies.
    3. Data Science is a rapidly evolving field, and an MTech will provide the guidance needed to stay current and be at the forefront of Data Science development.
    4. Provides students with the ability to gain a deeper understanding of Data Science and its applications, which can help them get better jobs or progress their careers.

Where Will You Be After graduation?

Upon graduation, MTech graduates are highly sought after in the job market, with many top companies offering competitive salaries for those with an MTech degree.

Furthermore, an MTech degree is a tremendous advantage as Thermal graduates are highly sought after in the job market.

Thermal graduates have specialised knowledge, making them more attractive to companies and often offered competitive salaries.

An MTech degree provides Thermal graduates with unique skills and qualifications that make them stand out in the job market and ensure they have a competitive advantage over other applicants.

Making the Most of Your MTech Degree; Yes That’s What Makes the difference!

With an MTech degree, you can pursue a plethora of career options.

What are the Most Coveted Career Options After MTech?

      1. Engineering
      2. Research and development
      3. Data science
      4. Materials and Manufacturing
  • The Scope of Materials and Manufacturing

Materials and Manufacturing are two areas often explored in an MTech course.

      1. Provide you with knowledge of materials used in industries and hands-on experience working with them.
      2. Access to other related fields, such as chemical engineering and robotics.
      3. Enable you to develop expertise in manufacturing processes, including production planning, cost control and product design.
      4. On completing the degree, you can embark on a career as a Materials and Manufacturing Engineer with high growth prospects.
      5. Exclusive job opportunities in the government sector.
  • The Future of MTech in VLSI

MTech in VLSI empowers students to get VLSI-related roles in the government and even industries like Aerospace, Medical electronics, Automotive industry, etc.

VLSI has become a popular technology due to its versatility in processing large amounts of data without lags. With the proper knowledge and specialised skillset gained through the course, you will be able to face the challenges of a competitive job market more confidently.

What is Stopping You From Grabbing That MTech Degree!

Pursuing an MTech degree can be a rewarding experience. It is an opportunity to gain the skills and knowledge needed to pursue specialised careers in your field of study.

With a vast range of opportunities that come with gaining an MTech degree, it is worth considering if you’re looking for specialised training and education.

With hard work and dedication, you can find great success in your chosen career after completing your MTech degree!

You are just a click away from pursuing your dream MTech Degree!