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Massachusetts Institute of Technology

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Massachusetts

United States

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Program Rank

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Overview

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Embark on a transformative journey in the field of Biomedical Engineering with the prestigious PhD in Biomedical Engineering program at the renowned Massachusetts Institute of Technology (MIT). This program stands as a beacon of excellence, embodying MIT's commitment to innovation, research, and interdisciplinary collaboration. The program is meticulously designed to equip students with advanced knowledge and skills, preparing them for leadership roles in academia, industry, and healthcare. Over a duration of 60 months, students will engage in rigorous coursework, hands-on research, and collaborative projects that push the boundaries of biomedical science and engineering.


The curriculum is comprehensive and carefully structured to cover a wide range of topics relevant to the current landscape of biomedical engineering. Core courses include advanced biomaterials, bioinformatics, tissue engineering, and medical imaging, alongside electives that allow for specialization in areas such as neuroengineering, regenerative medicine, and drug delivery systems. This diverse curriculum ensures that graduates are well-versed in both the theoretical and practical aspects of the field, enabling them to tackle real-world challenges with confidence.


In addition to the robust curriculum, students have the opportunity to engage with a distinguished faculty renowned for their expertise and contributions to biomedical engineering research. The faculty comprises leading experts who apply a unique teaching methodology that integrates theory with practical applications. Students will benefit from personalized mentorship, providing guidance throughout their academic journey. This dynamic environment fosters intellectual growth, encouraging students to explore innovative solutions to pressing biomedical challenges.


Research opportunities abound within the program, with cutting-edge facilities and resources that promote groundbreaking discoveries. Students will have access to state-of-the-art laboratories and equipment, engaging in projects that often lead to publications in high-impact journals. Collaborative research initiatives with industry leaders and healthcare organizations provide further insights into real-world applications, enhancing students’ understanding of the field's demands and advancements.


With an impressive graduation rate of 96%, the PhD in Biomedical Engineering program prepares graduates for a wide array of career pathways. Alumni have successfully secured positions as Biomedical Engineers, Bioinformatics Engineers, Biochemical Engineers, and Environmental Engineers. The program’s strong industry connections facilitate internship opportunities, allowing students to gain valuable work experience while building a professional network that will serve them throughout their careers. This comprehensive training not only enhances employability but also positions graduates to make significant contributions in their respective fields.


Moreover, the program's alumni success stories highlight the potential for impactful careers post-graduation. Many alumni have gone on to lead innovative projects in top-tier companies, while others have made significant contributions to research and academia, further exemplifying the program's commitment to excellence. Testimonials from former students emphasize the invaluable skills and knowledge gained, underscoring the program’s reputation as a catalyst for professional growth and advancement.


Why Study PhD in Biomedical Engineering at Massachusetts Institute of Technology


  • World-Class Faculty: Learn from leading experts in the field who are dedicated to mentoring the next generation of biomedical engineers.
  • Comprehensive Curriculum: Engage in a diverse curriculum that integrates core biomedical engineering principles with innovative research.
  • Research Opportunities: Access cutting-edge facilities and engage in collaborative research projects that can lead to high-impact publications.
  • Strong Industry Connections: Benefit from robust internship and job placement programs that connect students with top-tier companies and organizations.
  • Diverse Career Pathways: Graduates are well-prepared for various roles, including research, development, and leadership positions in the biomedical sector.
  • Alumni Network: Join a strong alumni network that provides ongoing support and opportunities for collaboration within the biomedical engineering community.

The PhD in Biomedical Engineering program at MIT welcomes applications from candidates with a strong academic background in engineering, biology, or a related field. Prospective students are expected to demonstrate their capabilities through a comprehensive application process, which includes a statement of purpose, recommendation letters, and proof of English language proficiency. Standardized test scores are not mandated, but strong academic performance, research experience, and relevant work experience will enhance an application.


Application requirements include a non-refundable fee of $90, along with essential documents such as official transcripts, a valid passport, a resume, IELTS or TOEFL scores, and certificates verifying previous degrees. The application deadline for the upcoming fall intake is December 15th, 2024. This rigorous selection process ensures that only the most qualified candidates are admitted to this esteemed program, fostering an environment of excellence and innovation.


With its rich tradition of academic rigor and innovative research, the PhD in Biomedical Engineering at the Massachusetts Institute of Technology stands as a premier choice for those aspiring to make a significant impact in the field. Join a community dedicated to pushing the boundaries of knowledge and transforming healthcare through engineering innovation.

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Duration

60 Months

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Median Salary

$59,000

Ranking

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#2

US World and News Report

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#5

The World University Rankings

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#1

QS World University Rankings

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Intake

Fall ( Sept - Nov )

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Intake

Summer ( July - Sept )

Class Profile

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Class Size

10

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Average Age

31

Diversity

Black or African American:

12%

Others:

8%

Two or more races:

5%

Asian:

15%

Hispanic or Latino:

12%

White:

48%

Career Outcomes

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Median Earnings After Graduation

$59,000 / year

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Graduation Rate

96%

Prospective Job Roles

Biomedical Engineer

Bioinformatics Engineer

Biochemical Engineer

Environmental Engineer

Bioinformatician

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Eligibility Criteria

English Proficiency Tests

  • IELTS

    7

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  • TOEFL

    100

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Application Requirements

Here's everything you need to know to ensure a complete and competitive application—covering the key documents and criteria for a successful submission.

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Application Fee: 90

  • intake

    Transcript

  • intake

    Statement of Purpose

  • intake

    Passport

  • intake

    Resume

  • intake

    IELTS

  • intake

    Provisional Certificate

  • intake

    Degree Certificate

  • intake

    General LOR

  • intake

    General LOR

  • intake

    General LOR

  • intake

    Semester wise Marksheet

Application Deadlines

Standard Deadline
FallDec 15, 2024

Fees and Funding

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Overall Cost

$28,884 / year

Funding Options

Department Funding

FAQs

  • The PhD in Biomedical Engineering program at MIT welcomes applications from candidates with a strong academic background in engineering, biology, or a related field. Prospective students are expected to demonstrate their capabilities through a comprehensive application process, which includes:

    • A statement of purpose
    • Recommendation letters
    • Proof of English language proficiency (IELTS or TOEFL scores)
    • Official transcripts
    • A valid passport
    • A resume

    Additionally, there is a non-refundable application fee of $90. While standardized test scores are not mandated, strong academic performance, research experience, and relevant work experience will enhance an application. The application deadline for the upcoming fall intake is December 15th, 2024.

  • The PhD in Biomedical Engineering program at MIT has a duration of 60 months. During this time, students will engage in rigorous coursework, hands-on research, and collaborative projects. The program is designed to equip students with advanced knowledge and skills, preparing them for leadership roles in academia, industry, and healthcare.

  • The curriculum for the PhD in Biomedical Engineering program is comprehensive and structured to cover a wide range of relevant topics. Core courses include:

    • Advanced biomaterials
    • Bioinformatics
    • Tissue engineering
    • Medical imaging

    Students also have the opportunity to take electives that allow for specialization in areas such as:

    • Neuroengineering
    • Regenerative medicine
    • Drug delivery systems

    This diverse curriculum ensures that graduates are well-versed in both the theoretical and practical aspects of the field, enabling them to tackle real-world challenges with confidence.

  • The PhD in Biomedical Engineering program employs a unique teaching methodology that integrates theory with practical applications. Students benefit from personalized mentorship from distinguished faculty renowned for their expertise, fostering a dynamic learning environment that encourages intellectual growth and exploration of innovative solutions to pressing biomedical challenges.

  • Graduates of the PhD in Biomedical Engineering program at MIT have a wide array of career pathways available to them. Alumni have successfully secured positions as:

    • Biomedical Engineers
    • Bioinformatics Engineers
    • Biochemical Engineers
    • Environmental Engineers

    The program boasts a strong graduation rate of 96%, and its connections with industry facilitate valuable internship opportunities that enhance employability. The comprehensive training provided not only prepares graduates for immediate employment but also positions them for significant contributions in their respective fields.

  • Students in the PhD in Biomedical Engineering program have access to cutting-edge facilities and resources that promote groundbreaking discoveries. The program emphasizes collaborative research initiatives with industry leaders and healthcare organizations, providing students with insights into real-world applications. Engaging in research projects often leads to publications in high-impact journals, further enhancing the academic and professional profile of students.

  • The PhD in Biomedical Engineering program at MIT has strong industry connections that facilitate internship opportunities, allowing students to gain valuable work experience while building a professional network. Additionally, the alumni network provides ongoing support and opportunities for collaboration within the biomedical engineering community, enhancing students' career prospects post-graduation.

  • The program at MIT is distinguished by several key features:

    • World-Class Faculty: Students learn from leading experts in the field who are committed to mentoring the next generation of biomedical engineers.
    • Comprehensive Curriculum: The diverse curriculum integrates core biomedical engineering principles with innovative research.
    • Research Opportunities: Access to state-of-the-art facilities and collaborative research projects that can lead to high-impact publications.
    • Strong Industry Connections: Robust internship and job placement programs connect students with top-tier companies.
    • Diverse Career Pathways: Graduates are well-prepared for various roles in the biomedical sector.
    • Alumni Network: A supportive community that offers ongoing collaboration opportunities.

  • Students in the PhD in Biomedical Engineering program will gain invaluable skills and knowledge that are essential for success in the field. The curriculum is designed to provide a strong foundation in both theoretical and practical aspects of biomedical engineering, equipping students with the ability to:

    1. Conduct advanced research in biomedical engineering.
    2. Apply innovative solutions to real-world biomedical challenges.
    3. Collaborate effectively with interdisciplinary teams.
    4. Communicate complex ideas clearly to both technical and non-technical audiences.

  • The PhD in Biomedical Engineering program at MIT is meticulously designed to prepare students for leadership roles in various sectors. Through a combination of rigorous coursework, hands-on research, and personalized mentorship from distinguished faculty, students develop not only technical expertise but also essential leadership skills. The program encourages students to take initiative in their research projects and collaborative efforts, fostering a sense of responsibility and innovation that is crucial for future leaders in academia, industry, and healthcare.

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