Studying biotechnology in the US offers access to world-class research facilities and resources, including state-of-the-art laboratories and cutting-edge equipment. Below are a few facts to help a student decide before embarking upon their journey to study Biotechnology in the US: - Quality of the Program: According to #QS World University Rankings by Subject, 6 out of top 10 universities for Biotechnology programs in the world are in the US. - #Research Opportunities: 9 out of 10 best research institutions in the world in the field of Biotechnology are in the US. Historically, the US, both in absolute dollar amounts and as a percentage of its research budget, has had the largest commitment to basic research in the biological sciences worldwide. Biotechnology funding by the NIH was around 7.85 billion USD during fiscal year 2021. - #Job Market: The employment of biological technicians is projected to grow 9 percent from 2021 to 2031, faster than the average for all occupations. STEM-designated program offering 24 months extension. Traditionally, with an F-1 visa, you were eligible for up to 12 months of Optional Practical Training (OPT). STEM students are allowed to apply to extend that period even longer (up to 24 months). Popular specialisations in Biotechnology - Biochemistry - Microbiology - Biophysics - Biostatistics - Bioinformatics - Biomedical - Forensic Science - Neuroscience - Regenerative Medicine - Marine Biotechnology - Food Biotechnology - Medical Biotechnology - Cellular and Molecular Biotechnology - Biotechnology Enterprise - Biodefense - Regenerative and Stem Cell Technologies - Regulatory Science - Agricultural Biotechnology Want to apply for study abroad? Connect with education experts at #Maiz! #studyabroad #studyinusa #biotechnology #educationconsultant #uae #dubai #uaestudents
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Associate Scientist | Translational Biomedical Sciences | | Anti-Viral Drug Development | | Science Communicator | | Career Counselor |
After Masters, students often remain in dilemma whether to opt for a PhD in Biotechnology/Life Sciences or search full time jobs in Industries? Key Considerations: Selecting a PhD within biotechnology and life sciences is a significant decision that requires careful thought and planning. ✔ Personal Interests and Passion: Choose a PhD domain that aligns with your interests and passions. Biotechnology and life sciences encompass a broad range of fields, such as genomics, biochemistry, microbiology, molecular biology, virology and more. Identify the area that excites you the most and that you are genuinely passionate about. ❌ Avoid Choosing Universities Based Solely on Rankings: Instead of focusing on university rankings, prioritize the quality of research related to your area of interest. Look at the citations of publications from the labs you're considering. High-quality research and influential publications often indicate a strong research environment. ✔ Career Goals: Consider your long-term career aspirations. Do you aim to pursue an academic career, work in industry, or start your own biotech company? Different PhD domains may offer varied pathways and opportunities. Align accordingly! ✔ Availability of Funding and Research Opportunities: Evaluate the availability of funding and research opportunities in your chosen field. Ask your prospective PI about the same before joining! ✔ Research Potential and Innovation: Choose a PhD domain with significant research potential and room for innovation. ✔ Faculty and Institutional Support: The support of your PhD advisor/Principal Investigator (PI) and institution is crucial. Your final thesis defense depends solely on him/her! ✔ Collaborative Opportunities: Seek domains that offer collaborative opportunities with other researchers and institutions. Collaboration is must and also attending conferences and professional scientific meets should be supported and allowed by your PI. Consider the lifestyle associated with a PhD. It requires dedication, persistence, and sometimes long hours. Ensure that you are prepared for this commitment and that it aligns with your personal life and well-being. Beyond technical expertise, consider the development of transferable skills such as critical thinking, project management, communication, and teamwork, which are valuable in various career paths. ✔ Job Market and Future Prospects: Research the job market and future prospects in your chosen domain. Some fields may have higher demand and better job opportunities post-PhD. Remember, PhD is a choice, not a mandatory path. It's a lifestyle you need to willingly adapt to. Follow ⚜ Surya Sekhar Pal ⚜ for more insights and let's connect! #biotechnology #biomedicalsciences #virology #scientistlife #researchanddevelopment #sciencecommunication #PhD #industries #industrialjobs #jobmarket #jobsearch #linkedinfamily #followformore #vaccinesdevelopment
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"Molecular Biotechnology Senior | Aspiring Molecular Oncologist | Experienced in Cancer Research & Gene Cloning | Unveiling Skills in Communication, Teamwork, and Leadership through Comprehensive Research Expertise"
opportunity for PhD graduates
Exciting opportunity for PhD graduates in #Biotechnology & #LifeSciences! The Department of Biotechnology, India is offering the DBT-Research Associateship program to train and nurture young researchers like you! Are you a passionate scientist with a PhD in Science, Engineering, or M.D./M.S. in medicine? Do you have a strong research background and interest in AI in healthcare or Bioinformatics? This fellowship is a fantastic chance to: Conduct cutting-edge research in a well-funded program Gain valuable experience working alongside leading scientists Contribute to India's growing Biotechnology sector Key Details: Duration: 2 years (with possible extension) Stipend: ₹47,000 - ₹54,000 per month (higher for PhD awarded fellows) Research Grant: ₹50,000 per year Additional Benefits: HRA and other government benefits Application Deadline: August 7th, 2024 Our lab is actively seeking talented researchers to join our team! If you're interested in this fellowship and our research focus on AI in healthcare and Bioinformatics, we encourage you to apply! Learn more and apply: https://lnkd.in/gtNgN_gp #ResearchFellowship #Postdoc #ScienceJobs #India Let us know in the comments if you have any questions!
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Common Fellowship portal for PhDs, Post-Doctoral aspirants Science and Technology Minister Jitendra Singh on Tuesday unveiled a portal where students would get information and be able to apply for doctoral and post-doctoral fellowships of various departments of the government. Common fellowship portal (fellowships.gov.in) will save the energy and time of aspiring students and startups by enabling a simplified and streamlined process from the submission of applications. The applicants can create their profile on the portal and use the same information to auto-fill different applications. This portal will help all applicants by reducing their time and energy by getting full information and submission of applications at a single place by the click of a mouse. Departments under the Ministry of Science and Technology (Department of Science and Technology, Department of Biotechnology, Council Of Scientific and Industrial Research) have come together for submission of application forms and soon application forms for all other departments such as Indian Council of Medical Research, University Grants Commission and All India Council for Technical Education will also be available on the portal.
Common Fellowship Portal | Ministry of Science and Technology
fellowships.gov.in
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#iamHTM Create 1,66,408 Biomedical Engineers | Published 93 Biomedical Books | CEO - ATHEENAPANDIAN ORGANIZATION (India's No.1 Biomedical Industry for Training & Placements)
Studying Biomedical Science in Switzerland is a great choice, as there are 7 universities that offer PhD degrees on our portal. Over 58,000 international students choose Switzerland for their studies, which suggests you’ll enjoy a vibrant and culturally diverse learning experience and make friends from all over the world. We counted 163 affordable PhD degrees in Switzerland, allowing you to access quality higher education without breaking the bank. Moreover, there are 22 available scholarships you can apply to. Explore Biomedical Science Scholarships and Financial Aid in Switzerland to fuel your passion and advance your studies. Accessible funding options are here to support your journey in Biomedical Science, making your educational dreams achievable. Start your path to a rewarding career with the right financial support. For the highest salary: Switzerland. You probably didn't go into research for the money, but getting paid well for your talents and contributions sure is a nice side benefit. There are many biomedical jobs in Switzerland, including positions in research, engineering, and software development: #PhD positions The Swiss Nanoscience Institute at the University of Basel is looking for a highly motivated scientist for a PhD position on novel mRNA nanotherapeutics. The MetacMed Doctoral Network is also offering 12 PhD positions in the area of acoustic and mechanical metamaterials for biomedical applications. #Engineering positions There are positions for medical device systems engineers, research and development engineers, and field service engineers. #Software development positions There are positions for software developers and junior full-stack software engineers for biomedical data science. #Other positions There are positions for data scientists, research laboratory technicians, and scientific project managers. Thanks to SWITZERLAND OF OHIO EDUCATION ASSOCIATION Education Management of Switzerland Higher Education Management (Switzerland) Switzerland Jobs Switzerland Startup Jobs Switzerland Jobs Jobs Switzerland get the job switzerland Prestige Jobs Switzerland Elite Jobs Switzerland
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PhD Candidate||Biochemist||Lecturer||Research (Quantitative and Qualitative||Data Analyst||S.T.E.M||SDG Goals Volunteer||Rotarian
DOING THE SAME THING AND EXPECTING DIFFERENT RESULTS: IGNORANCE OR STUPIDITY In Nigerian universities, particularly in the sciences, it is common to see repeated attempts to achieve different results by doing the same thing over and over. This practice permeates not only academia but also various facets of life in Nigeria—families, society, government policies, and other spheres. In academia, this manifests in constant reliance on outdated methodologies and curriculum, where instead of fostering improvement, it often leads to negative results. In a private conversation, my professor posed a provocative question: “Okwunna, if you were a policy maker, how many times do you think it is normal to do Biochemistry practicals?” Suspecting a trap, I gave the question some thought. Reflecting on my undergraduate days, I could not recall visiting the laboratory more than 20 times over the entire four years. I suggested two practical sessions per week as a solution, which seemed reasonable to me. To my surprise, my professor responded, “Okwunna, that’s the problem.” He went on to tell me that during his own undergraduate studies, practicals lasted for four hours every day. This left me questioning, What practicals were they doing? Was it not the same Benedict's test, Seliwanoff's test, and other basic protein and carbohydrate tests that dominate our university laboratories even today? On deeper reflection, however, I began to realize that our academic practices have become stagnant. Rather than improve, they seem to have regressed, which begs the question: How can we do better, even within the limitations of our educational policies? There could be ways of doing better. Part 1: 1. Revamp Curriculum and Practical Sessions: Instead of recycling the same basic experiments, universities must revitalize their lab curricula. Advanced Practicals: Introduce students to more modern techniques such as HPLC, Mass Spectrometry, PCR, and computer-based simulations. These tools allow students to work on more complex biochemical problems, connecting theory with real-world applications. Research-Based Learning: From undergraduate programs, students should be encouraged to participate in ongoing research, gaining hands-on experience with scientific inquiry. This not only deepens understanding but also fosters critical thinking and innovation from an early stage. 2. Collaborative Research Culture: Interdisciplinary Projects: Collaboration between departments such as Biochemistry, Medical Sciences, and Engineering can lead to breakthroughs. For example, integrating biochemistry with computational biology or biotechnology can create more dynamic research opportunities. International Partnerships: Universities should actively seek partnerships with international institutions. These collaborations will provide access to cutting-edge technology and fresh ideas that can help overcome local resource constraints. #learning #research #Collaboration #criticalthinking
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Biozeephysis is a Great Platform to connect National and International Conference updates, Journal paper and Research paper updates by Biozeephysis team to explore worldwide Biomedical Research updates⚕️🔬🔍
Dear Biomedical Researchers, Let us Introducing our Atheenapandian's Research Team Krithina - Trainer@Atheenapandian ▫️Name of the Researcher: Krithina Dharmarajan ▫️Designation: Biomedical Trainer ▫️Domain expertise on: Biomoleculae Engineering ▫️Organization Name: ATHEENAPANDIAN - India's No.1 Biomedical Industry for Training & Placements. As a researcher my curiosity leans on the sphere of biomolecular engineering research that focuses on the structures of biological molecules and their development, utilization, and diversification as they progress to more complex levels of organization. Molecular biology primarily revolves around three-dimensional and structural aspects, emphasizing that it is more than just a enhancement of form. Simultaneously, I think it is essential to extend the arena of molecular biology to explore both the origin and purpose of biological entities. #biomolecular #engineering #biozeephysis #Innovation #Research #Technology #appld #team #concepts #biomedical Thanks, With Best Regards, Krithina Dharmarajan, Biomedical Trainer, Atheenapandian Organization. For more updates, Bio Zeephysis, Subsidiary of ATHEENAPANDIAN - India's No.1 Biomedical Industry for Training & Placements, +91 8807039891, www.atheenapandian.com
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My poll last week asked: Are you currently enrolled in or recently admitted to a US life science PhD program? Take this poll to help me understand whether you plan to stay in academia or go into industry! I want to get a live read on this. Here are the poll results: - Academia, 2 votes - Industry, 19 votes - Undecided, 4 votes - Other, 0 votes I suspected it was going to skew heavily towards industry (since LinkedIn is where people would go to find industry jobs), but I was still surprised by the nearly 10-fold difference between academia and industry. Maybe all those PhD students who plan to be in academia were too busy to be on LinkedIn? In any case, this helps me think about whether there would be a demand for industry life science PhD programs, in which students are jointly mentored by industry and academic mentors, if they were offered in the US. I'm guessing it does. #lifescience #phd #industry #academia #biotech #pharma
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Postdoc or Industry/Pharma/Biotech? After completing a PhD, which typically takes 3.5 to 7 years depending on the country and lab, the next step usually involves choosing between academia and industry (with other options like medical school also available). In most cases (though not all), if you are not interested in pursuing an academic research career, doing a postdoc may be a mistake. Here are several reasons based on my experience in the biomedical field, which might vary for other disciplines. 1. Lower income: In some countries like Canada, postdoc salaries can be as low as half of what PhD graduates earn in the pharmaceutical/biotech industry. 2. Limited skill acquisition fit for industry: The skills and knowledge gained during a postdoc might be an extension of your PhD (potentially in a different field or with greater depth), but they may not align well with industry needs. This deeper specialization could also make you overqualified for many industry positions. 3. Lost industry experience: You could miss out on 2-5 years of industry work experience. Transitioning from academia to industry without this experience is challenging, especially after a postdoc. It is generally easier for PhD holders and even easier for MSc graduates to transition. 4. Career progression: After 4 or 5 years, you might still be a postdoc with a stagnant salary and position. In contrast, industry professionals can see significant changes in their position and salary within the same period. 5. Low chance to Secure PI position: Postdoc positions are inherently insecure. There is no guarantee of securing a PI position in academia. For example, in Canada, only 3 to 5 out of 100 PhD graduates successfully obtain a PI/tenure position (biomedical fields). 6. PI preparation: A postdoc is a stepping stone towards becoming a PI, a role that involves starting a lab, applying for grants, recruiting and supervising students, participating in committees, and attending conferences. If your goal is to work in industry, these responsibilities are largely unnecessary. While I personally love doing postdoc work and there are many advantages to do postdoc but there is not enough space in this post to discuss those adventages (maybe in next one). meme is for fun and in some cases could be opposite 🙂 #postdoc #academia #industry
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#iamHTM Create 1,66,408 Biomedical Engineers | Published 93 Biomedical Books | CEO - ATHEENAPANDIAN ORGANIZATION (India's No.1 Biomedical Industry for Training & Placements)
Dear Connections This video provides information on the Biometrical Science and Technology #post-graduation program. It covers opportunities in #research and #development, and also discusses #entrepreneurship in the field of Biomedical Science and Technology. Biomedical engineering and biomedical science exhibit uniqueness and variations. Research and development in biomedical science offer numerous opportunities. A #postgraduate degree in biomedical engineering is not as advantageous as one in biomedical science because graduates in biomedical science have more opportunities in #Northeastern and #Northwestern countries We can consider #Germany, #France, #Spain, #Korea, #Japan, and #Canada for advanced studies and research opportunities. These #countries primarily focus on biomedical science over civil engineering. Opting for a science-related field may be a more favorable choice than biometric engineering Thanks With Best Regards ATHEENAPANDIAN - India's No.1 Biomedical Industry for Training & Placements WWW.ATHEENAPANDIAN.COM
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I think its for all discipline of science...
A review paper published in Nature Biotechnology examines the career outcomes and advantages of pursuing a postdoc for people in the early stages of their careers in biomedical fields. One key finding from this research is that while postdoc roles are crucial for launching tenure-track careers, they generally do not result in career advancement or higher salaries in non-academic job sectors over time. https://lnkd.in/g-p_RrCd
The impact of postdoctoral training on early careers in biomedicine - Nature Biotechnology
nature.com
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