AIMS and SCOPE

Quantitative Bio-resource Technology is an international, peer-reviewed, open-access journal that focuses on the sustainable and efficient utilization of biological resources. The journal aims to publish original research, reviews, and perspectives that advance knowledge and promote innovation in the fields of bio-resource technology, bioprocessing, bio-refinery, and related areas. The scope of the journal includes, but is not limited to:

  • Bio-resource characterization, analysis, and valorization
  • Bioprocess design, optimization, and control
  • Biorefinery concepts, technologies, and applications
  • Renewable energy generation from bio-resources
  • Biotechnological approaches for bio-resource utilization
  • Bio-based materials and chemicals production
  • Bio-resource recovery from waste streams
  • Bio-resource management, policy, and economics
  • Environmental and social impact of bio-resource utilization
  • Sustainable agriculture and forestry practices
  • Biomass and bioenergy production
  • Green chemistry and engineering
  • Life cycle assessment and sustainability analysis

Quantitative Bio-resource Technology provides a platform for interdisciplinary collaboration, bringing together researchers, engineers, and practitioners from different fields and regions to share their expertise and experiences. The journal aims to be a hub for cutting-edge research that drives innovation and fosters scientific excellence in the field of bio-resource technology.

The journal welcomes submissions that employ quantitative and systems-based approaches to address fundamental and applied research questions related to bio-resource utilization. The journal also welcomes contributions that demonstrate a clear connection to societal needs, including the potential to impact global challenges such as climate change, food security, and energy sustainability.

Quantitative Bio-resource Technology is committed to maintaining the highest standards of scientific integrity and ethical conduct. The journal follows a rigorous peer-review process to ensure that all research published is of high quality, original, and relevant to the journal's scope. The journal also adheres to all necessary regulations related to open-access publishing, such as the Budapest Open Access Initiative, the Berlin Declaration on Open Access to Knowledge in the Sciences and Humanities, and the Directory of Open Access Journals.

The following is a list of keywords/sub-topics relating to the scope of Quantitative Bio-resource Technology:

  • Bio-resource characterization
  • Bio-resource management
  • Bio-resource policy
  • Bio-resource utilization
  • Biobased chemicals
  • Biobased materials
  • Bio-based products
  • Bioeconomy
  • Bioenergy
  • Biogas
  • Biogeochemistry
  • Biohydrogen
  • Biokerosene
  • Biomanufacturing
  • Bioprocessing
  • Bioreactors
  • Biorefinery
  • Biosynthesis
  • Carbon capture and storage
  • Circular economy
  • Climate change
  • Composting
  • Crop residue
  • Energy crops
  • Enzyme engineering
  • Environmental impact assessment
  • Fermentation
  • Food security
  • Forest residues
  • Gasification
  • Green chemistry
  • Life cycle assessment
  • Lignocellulosic biomass
  • Microbial biotechnology
  • Microbial ecology
  • Nutrient recycling
  • Photosynthesis
  • Plant-microbe interactions
  • Pyrolysis
  • Renewable energy
  • Soil carbon
  • Soil microbiology
  • Soil remediation
  • Sustainable agriculture
  • Sustainable forestry
  • Synthetic biology
  • Waste valorization
  • Water quality
  • Wood biomass

The list is not exhaustive and authors are encouraged to submit manuscripts on related topics within the scope of the journal.

here are some keywords and sub-topics related to the aims and scope of "Quantitative Bio-resource Technology":

  1. Biotechnology
  2. Bioinformatics
  3. Synthetic biology
  4. Systems biology
  5. Computational biology
  6. Genetics
  7. Genomics
  8. Proteomics
  9. Metabolomics
  10. Transcriptomics
  11. Omics
  12. Microbiology
  13. Molecular biology
  14. Cell biology
  15. Biochemistry
  16. Biomaterials
  17. Biomechanics
  18. Biophysics
  19. Bioengineering
  20. Nanotechnology
  21. Bio-energy
  22. Bioreactors
  23. Bioprocess engineering
  24. Biomass
  25. Biofuels
  26. Bioremediation
  27. Environmental biotechnology
  28. Plant biotechnology
  29. Animal biotechnology
  30. Marine biotechnology
  31. Food biotechnology
  32. Agricultural biotechnology
  33. Pharmaceutical biotechnology
  34. Biomedical engineering
  • Tissue engineering
  1. Regenerative medicine
  • Medical devices
  • Diagnostics
  • Imaging
  1. Drug discovery
  2. Drug delivery
  3. Vaccine development
  4. Synthetic vaccines
  5. Gene therapy
  6. Cancer research
  7. Immunology
  8. Immunotherapy
  9. Infectious diseases
  10. Neuroscience
  11. Neuroengineering
  12. Systems neuroscience
  13. Cognitive neuroscience
  • Neuroimaging
  1. Neuropharmacology
  2. Bioethics
  • Intellectual property
  1. Technology transfer
  2. Entrepreneurship
  3. Innovation
  4. Patent law
  5. Regulatory affairs
  6. Clinical trials
  7. Good laboratory practice (GLP)
  8. Good manufacturing practice (GMP)
  • Quality assurance (QA)
  1. Quality control (QC)
  • Standardization
  • Data sharing
  • Reproducibility
  1. Open science
  2. Open access publishing
  3. Peer review
  • Research integrity
  1. Research ethics
  2. Scientific communication
  • Science education
  1. Science policy
  2. Public engagement
  3. Citizen science
  4. Science diplomacy
  5. Scientific collaboration
  6. Big data analytics
  • Machine learning
  1. Artificial intelligence
  2. Internet of Things (IoT)
  • Cloud computing
  1. High-performance computing
  2. Data visualization
  3. Data management
  4. Data curation
  5. Data mining
  6. Data privacy
  • Data security
  1. Blockchain technology
  2. Digital twins
  • Industry 4.0
  1. Smart cities
  2. Smart agriculture
  3. Smart healthcare
  4. Digital transformation
  5. Sustainability
  6. Green technology
  7. Circular economy
  8. Life cycle assessment
  9. Carbon footprint
  10. Environmental impact assessment
  11. Eco-design
  12. Sustainable agriculture
  13. Sustainable fisheries
  14. Sustainable forestry
  15. Sustainable energy
  16. Renewable energy
  17. Energy storage
  18. Energy efficiency
  19. Carbon capture and storage
  20. Climate change mitigation
  21. Climate adaptation
  22. Biodiversity conservation
  23. Ecosystem services
  24. Ecological restoration.
  25. Sustainable use of bio-resources
  26. Biomass production and utilization
  27. Bioenergy production and conversion technologies
  28. Waste valorization and circular bio-economy
  29. Bioremediation and environmental applications
  30. Bio-inspired materials and technologies
  31. Bioprocessing and downstream techniques
  32. Microbial diversity and biotechnology
  33. Synthetic biology and genetic engineering
  34. Metabolic engineering and bioreactor design
  35. Omics technologies and data analysis
  36. Biostatistics and bioinformatics
  37. Biosensors and bioinstrumentation
  38. Biomechanics and biomaterials
  39. Biomedical imaging and diagnostics
  40. Drug discovery and biopharmaceuticals
  41. Plant biotechnology and agricultural applications
  42. Animal biotechnology and livestock production
  43. Aquatic biotechnology and fisheries management
  44. Biosecurity and biosafety
  45. Ethical, legal, and social implications of biotechnology
  46. Science communication and outreach
  47. Open science and reproducibility
  48. Research policy and funding opportunities
  49. Industry-academia collaborations
  50. Intellectual property and patenting
  51. Entrepreneurship and start-up incubation
  52. Education and workforce development in biotechnology
  53. Gender and diversity in biotechnology
  54. Global and regional perspectives on biotechnology
  55. Emerging trends and future directions in biotechnology
  56. Bioprocessing for value-added products
  57. Sustainable use of natural resources
  58. Industrial biotechnology
  59. Chemical and biochemical processes
  60. Biocatalysis
  61. Renewable energy
  62. Green chemistry
  63. Biorefineries
  64. Biodegradable polymers
  65. Bio-nanotechnology
  66. Biomimicry
  67. Bio-inspired materials and structures
  68. Bio-inspired robotics
  69. Biosynthesis
  70. Fermentation
  71. Biobased chemicals
  72. Biosorption
  73. Bioaugmentation
  74. Bioreduction
  75. Biomethanation
  76. Bioconversion
  77. Biopolymers
  78. Biofuels
  79. Biodiversity
  80. Biodegradation
  81. Biosequestration
  82. Biocorrosion
  83. Biomineralization
  84. Biodecontamination
  85. Biocontrol
  86. Bioremediation technologies
  87. Microbial ecology
  88. Biocomputing
  89. Biochips
  90. Biosafety
  91. Bioprocessing models
  92. Life cycle analysis
  93. Bioprospecting
  94. Synthetic biology
  95. Systems biology
  96. Biocultural diversity
  97. Biophilosophy
  98. Biotech innovation
  99. Social acceptance of biotechnology
  100. Biotech entrepreneurship
  101. Industrial fermentation
  102. Biopharmaceuticals
  103. Food biotechnology
  104. Animal biotechnology
  105. Plant biotechnology
  106. Microbial biotechnology
  107. Environmental biotechnology
  108. Agricultural biotechnology
  109. Marine biotechnology
  110. Biotechnology patents
  111. Patentability of biotech inventions
  112. Biotechnology investment
  113. Biotechnology risk assessment
  114. Biotechnology regulation
  115. Biotechnology ethics
  116. Public awareness of biotechnology
  117. Biotechnology education
  118. Biotechnology career development
  119. Biotechnology economics
  120. Biotechnology intellectual property rights
  121. Biotechnology commercialization
  122. Biotechnology venture capital
  123. Biotechnology marketing
  124. Biotechnology strategic alliances
  125. Biotechnology mergers and acquisitions
  126. Biotechnology licensing
  127. Biotechnology and the environment
  128. Biotechnology and public health
  129. Biotechnology and the law
  130. Biotechnology and the media
  131. Biotechnology and society
  132. Biotechnology and agriculture
  133. Biotechnology and the economy
  134. Biotechnology and energy
  135. Biotechnology and national security
  136. Biotechnology and the future

The journal "Quantitative Bio-resource Technology" aims to be a platform for researchers, industry professionals, policymakers, and other stakeholders to share their knowledge and insights on the latest developments and trends in biotechnology. The scope of the journal covers a broad range of topics, including bioprocessing, renewable energy, bio-inspired materials, bioremediation, synthetic biology, and biotech entrepreneurship. Our mission is to foster innovation and collaboration in biotechnology research and development, while promoting ethical and sustainable practices. By publishing high-quality open-access articles, we hope to contribute to the advancement of biotechnology and its applications in addressing global challenges. Our vision is to become a leading publication in the field of biotechnology, recognized for our commitment to scientific rigor, integrity, and excellence.