AIMS and SCOPE | Quantitative Bio-resource Technology

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":

Biotechnology
Bioinformatics
Synthetic biology
Systems biology
Computational biology
Genetics
Genomics
Proteomics
Metabolomics
Transcriptomics
Omics
Microbiology
Molecular biology
Cell biology
Biochemistry
Biomaterials
Biomechanics
Biophysics
Bioengineering
Nanotechnology
Bio-energy
Bioreactors
Bioprocess engineering
Biomass
Biofuels
Bioremediation
Environmental biotechnology
Plant biotechnology
Animal biotechnology
Marine biotechnology
Food biotechnology
Agricultural biotechnology
Pharmaceutical biotechnology
Biomedical engineering

Tissue engineering

Regenerative medicine

Medical devices
Diagnostics
Imaging

Drug discovery
Drug delivery
Vaccine development
Synthetic vaccines
Gene therapy
Cancer research
Immunology
Immunotherapy
Infectious diseases
Neuroscience
Neuroengineering
Systems neuroscience
Cognitive neuroscience

Neuroimaging

Neuropharmacology
Bioethics

Intellectual property

Technology transfer
Entrepreneurship
Innovation
Patent law
Regulatory affairs
Clinical trials
Good laboratory practice (GLP)
Good manufacturing practice (GMP)

Quality assurance (QA)

Quality control (QC)

Standardization
Data sharing
Reproducibility

Open science
Open access publishing
Peer review

Research integrity

Research ethics
Scientific communication

Science education

Science policy
Public engagement
Citizen science
Science diplomacy
Scientific collaboration
Big data analytics

Machine learning

Artificial intelligence
Internet of Things (IoT)

Cloud computing

High-performance computing
Data visualization
Data management
Data curation
Data mining
Data privacy

Data security

Blockchain technology
Digital twins

Industry 4.0

Smart cities
Smart agriculture
Smart healthcare
Digital transformation
Sustainability
Green technology
Circular economy
Life cycle assessment
Carbon footprint
Environmental impact assessment
Eco-design
Sustainable agriculture
Sustainable fisheries
Sustainable forestry
Sustainable energy
Renewable energy
Energy storage
Energy efficiency
Carbon capture and storage
Climate change mitigation
Climate adaptation
Biodiversity conservation
Ecosystem services
Ecological restoration.
Sustainable use of bio-resources
Biomass production and utilization
Bioenergy production and conversion technologies
Waste valorization and circular bio-economy
Bioremediation and environmental applications
Bio-inspired materials and technologies
Bioprocessing and downstream techniques
Microbial diversity and biotechnology
Synthetic biology and genetic engineering
Metabolic engineering and bioreactor design
Omics technologies and data analysis
Biostatistics and bioinformatics
Biosensors and bioinstrumentation
Biomechanics and biomaterials
Biomedical imaging and diagnostics
Drug discovery and biopharmaceuticals
Plant biotechnology and agricultural applications
Animal biotechnology and livestock production
Aquatic biotechnology and fisheries management
Biosecurity and biosafety
Ethical, legal, and social implications of biotechnology
Science communication and outreach
Open science and reproducibility
Research policy and funding opportunities
Industry-academia collaborations
Intellectual property and patenting
Entrepreneurship and start-up incubation
Education and workforce development in biotechnology
Gender and diversity in biotechnology
Global and regional perspectives on biotechnology
Emerging trends and future directions in biotechnology
Bioprocessing for value-added products
Sustainable use of natural resources
Industrial biotechnology
Chemical and biochemical processes
Biocatalysis
Renewable energy
Green chemistry
Biorefineries
Biodegradable polymers
Bio-nanotechnology
Biomimicry
Bio-inspired materials and structures
Bio-inspired robotics
Biosynthesis
Fermentation
Biobased chemicals
Biosorption
Bioaugmentation
Bioreduction
Biomethanation
Bioconversion
Biopolymers
Biofuels
Biodiversity
Biodegradation
Biosequestration
Biocorrosion
Biomineralization
Biodecontamination
Biocontrol
Bioremediation technologies
Microbial ecology
Biocomputing
Biochips
Biosafety
Bioprocessing models
Life cycle analysis
Bioprospecting
Synthetic biology
Systems biology
Biocultural diversity
Biophilosophy
Biotech innovation
Social acceptance of biotechnology
Biotech entrepreneurship
Industrial fermentation
Biopharmaceuticals
Food biotechnology
Animal biotechnology
Plant biotechnology
Microbial biotechnology
Environmental biotechnology
Agricultural biotechnology
Marine biotechnology
Biotechnology patents
Patentability of biotech inventions
Biotechnology investment
Biotechnology risk assessment
Biotechnology regulation
Biotechnology ethics
Public awareness of biotechnology
Biotechnology education
Biotechnology career development
Biotechnology economics
Biotechnology intellectual property rights
Biotechnology commercialization
Biotechnology venture capital
Biotechnology marketing
Biotechnology strategic alliances
Biotechnology mergers and acquisitions
Biotechnology licensing
Biotechnology and the environment
Biotechnology and public health
Biotechnology and the law
Biotechnology and the media
Biotechnology and society
Biotechnology and agriculture
Biotechnology and the economy
Biotechnology and energy
Biotechnology and national security
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.