AIMS and SCOPE

AIMS and SCOPES (750 words):

Advances and Applications of Bioengineering aims to publish original research articles, reviews, and commentaries in all areas of bioengineering, including but not limited to the following sub-topics:

  • Biomedical engineering
  • Biomaterials and tissue engineering
  • Biosensors and bioelectronics
  • Computational bioengineering
  • Drug delivery and pharmacology
  • Genetic engineering and synthetic biology
  • Microfluidics and lab-on-a-chip systems
  • Nanotechnology and nanobiotechnology
  • Neuroengineering and rehabilitation engineering
  • Regenerative medicine
  • Systems and synthetic biology
  • Biomechanics and mechanobiology

Our scope also includes research that applies bioengineering principles to the development of novel technologies and solutions for societal challenges, such as:

  • Healthcare and medicine
  • Environmental sustainability
  • Energy and biofuels
  • Agriculture and food production
  • Biomanufacturing and industrial biotechnology

Advances and Applications of Bioengineering welcomes submissions from researchers, scientists, engineers, and industry professionals from all over the world. We encourage authors to submit their work that represents original and significant contributions to the field of bioengineering. We also welcome submissions that integrate interdisciplinary perspectives and promote cross-disciplinary collaborations. Manuscripts that report on negative results or replicate previous findings with new insights and methodologies are also welcomed.

To ensure the highest quality of published articles, Advances and Applications of Bioengineering has strict ethical and scientific guidelines that all authors, editors, and reviewers are required to follow. We adhere to the guidelines set forth by the Committee on Publication Ethics (COPE) and require all authors to submit their work for ethical review and approval from their institutional review board (IRB) or equivalent ethics committee. Our editorial team ensures that all submitted articles undergo rigorous peer-review by experts in the field and are evaluated for their scientific rigor, novelty, and impact.

Advances and Applications of Bioengineering is an open-access journal, meaning that all published articles are freely available to readers without any subscription or paywall barriers. We believe that this open access model promotes greater dissemination of knowledge and encourages greater global participation in scientific research. We also support the open data movement and encourage authors to deposit their research data in publicly accessible repositories.

To maintain the financial sustainability of our open-access model, Advances and Applications of Bioengineering charges a publication fee for all accepted articles. However, we offer waivers or discounts for authors from low-income countries or those who face financial barriers. We also offer a fast-track review process for urgent and time-sensitive manuscripts, and expedited publication for those accepted.

In summary, Advances and Applications of Bioengineering is a leading open-access journal dedicated to publishing high-quality research in bioengineering and its applications. Our mission is to promote the development and dissemination of innovative research, foster a culture of collaboration, and support the advancement of bioengineering research. Our vision is to be a trusted source of information and a catalyst for the development of novel solutions to global challenges. Our scope encompasses all areas of bioengineering, and we welcome submissions from authors worldwide. We adhere to the highest ethical and scientific standards and promote open access to scientific knowledge.

Keywords/ Subtopics:

  1. Biomaterials
  2. Biomechanics
  3. Biomedical imaging
  4. Biomedical instrumentation
  5. Biomedical optics
  6. Biomedical signal processing
  7. Biosensors
  8. Biotechnology
  9. Cell and tissue engineering
  10. Computational biology
  11. Drug delivery systems
  12. Medical devices
  13. Nanomedicine
  14. Neuroengineering
  15. Synthetic biology
  16. Regenerative medicine
  17. Bioinformatics
  18. Biophysics
  19. Biochemistry
  20. Biostatistics
  21. Cardiovascular engineering
  22. Clinical engineering
  23. Dental engineering
  24. Diagnostic imaging
  25. Electrical engineering
  26. Environmental engineering
  27. Food engineering
  28. Genetic engineering
  29. Industrial engineering
  30. Mechanical engineering
  31. Medical imaging
  32. Medical physics
  33. Microfluidics
  34. Molecular biology
  • Neural engineering
  1. Orthopedic engineering
  • Pharmaceutical engineering
  • Rehabilitation engineering
  • Respiratory engineering
  1. Stem cell engineering
  2. Surgical instrumentation
  3. Telemedicine
  4. Ultrasound imaging
  5. Bio-inspired design
  6. Biocompatibility
  7. Bioreactors
  8. Biosimulation
  9. Biomechatronics
  10. Biopharmaceuticals
  11. Biosurgery
  12. Brain-computer interface
  13. Cell therapy
  • Chemical engineering
  1. Clinical trials
  2. Computer-aided diagnosis
  • Controlled release systems
  1. DNA sequencing
  2. Drug discovery
  3. Electrochemical sensors
  4. Electromyography
  5. Environmental monitoring
  6. Ethics in bioengineering
  7. Fluorescence imaging
  8. Gene therapy
  • Genetic testing
  1. Healthcare technology
  • High-throughput screening
  • Implantable devices
  • In vitro models
  1. In vivo models
  2. Medical robotics
  3. Microfabrication
  • Microscopy
  1. Molecular imaging
  2. Multiscale modeling
  • Musculoskeletal engineering
  1. Natural biomaterials
  2. Non-invasive imaging
  3. Optical coherence tomography
  4. Personalized medicine
  5. Pharmacokinetics
  6. Point-of-care diagnostics
  • Precision medicine
  1. Protein engineering
  2. Proteomics
  • Quantum biology
  1. Rehabilitation technology
  2. Resonance imaging
  3. RNA interference
  4. Smart materials
  5. Spectroscopy
  6. Surface engineering
  • Synthetic biomaterials
  1. Synthetic cells
  2. Targeted drug delivery
  • Telehealth
  1. Tissue scaffolds
  2. Topical drug delivery
  3. Translational medicine
  4. Wearable devices
  5. Wound healing
  6. 3D printing
  7. Adaptive systems
  8. Ageing research
  9. Agriculture engineering
  10. Analytical chemistry
  11. Artificial intelligence
  12. Bio-inspired robotics
  13. BioMEMS
  14. Biosimilars
  15. Cell culture systems
  16. Chemical biology
  17. Clinical genetics
  18. Clinical informatics
  19. Computer vision
  20. CRISPR technology
  21. Cybernetics
  22. Data analysis
  23. Dental materials
  24. Developmental biology
  25. Digital health
  26. Drug design
  27. Electrospinning
  28. Embryonic stem cells
  29. Energy harvesting
  30. Enzyme engineering
  31. Epidemiology
  32. Epigenetics
  33. Evolutionary biology
  34. Fabrication techniques
  35. Forensic engineering
  36. Gene editing
  37. Genetic
  38. Genome engineering
  39. Genomics
  40. Glycobiology
  41. Health informatics
  42. Human genetics
  43. Human-machine interfaces
  44. Immunoengineering
  45. Inflammation research
  46. Machine learning
  47. Materials science
  48. Medical informatics
  49. Medical nanotechnology
  50. Medical sensors
  51. Metabolic engineering
  52. Microbial engineering
  53. Microbiome engineering
  54. Microfluidic systems
  55. Molecular diagnostics
  56. Multidisciplinary research
  57. Nanofabrication
  58. Nanoparticles
  59. Nanotechnology
  60. Neuroscience
  61. Nutraceuticals
  62. Optical imaging
  63. Organ-on-a-chip
  64. Personalized diagnostics
  65. Pharmacogenomics
  66. Protein structure prediction
  67. Quantum computing
  68. Quantitative biology
  69. Radiology
  70. RNA sequencing
  71. Robotics
  72. Scaffold-free tissue engineering
  73. Scientific computing
  74. Signal transduction
  75. Single-cell analysis
  76. Soft robotics
  77. Systems biology
  78. Tissue engineering and regeneration
  79. Transcriptomics
  80. Transport phenomena
  81. Vascular engineering
  82. Veterinary medicine
  83. Virtual reality
  84. Whole genome sequencing
  85. X-ray imaging
  86. Yeast engineering
  87. Big data analysis
  88. Bioactuators
  89. Bioelectronics
  90. Bioenergy
  91. Biofilms
  92. Bioinformatics tools
  93. Biologic drugs
  94. Biomarker discovery
  95. Biomimicry
  96. Biopharmaceutical production
  97. Bioprinting
  98. Bioremediation
  99. Biosynthetic pathways
  100. Biotechnology education
  101. Cancer diagnostics
  102. Cardiovascular devices
  103. Catalysis
  104. Cell biology
  105. Cell membrane engineering
  106. Cell migration
  107. Cell signaling
  108. Cell surface engineering
  109. Chemical sensors
  110. Chromatin engineering
  111. Chronic disease management
  112. Clinical engineering standards
  113. Clinical guidelines
  114. Clinical trials design
  115. Computational neuroscience
  116. Computer-aided drug design
  117. CRISPR diagnostics
  118. Crop engineering
  119. Data privacy and security
  120. Decision support systems
  121. Dental implants
  122. Device design and prototyping
  123. Digital twins
  124. DNA engineering
  125. DNA synthesis
  126. Drug metabolism
  127. Drug repurposing
  128. Electroceuticals
  129. Emergency medicine technology