44 7897 074717Biodegradation Open Access Journals
Biodegradation is a significant property for poisonous synthetic substances, in such a case that the biodegradation rate is high, the fixation and in this manner the harmful impact will be diminished quickly, while industrious synthetics will keep up their poisonous impact for an exceptionally lengthy timespan.
The scope of biodegradation rates is exceptionally wide – from promptly biodegraded mixes concerning example monomer starches, low sub-atomic alcohols, and acids to stubborn exacerbates that have a natural half-existence of quite a long while with respect to case DDT and dioxins.
On a basic level, biodegradation is done by numerous creatures, yet by and large we consider microbiological biodegradation for the most significant from a natural perspective. The biodegradation rates in water and in soil by microorganisms are of especially intrigue.
High Impact List of Articles
-
Currents trends in Biotechnology
Pavel JoelEditorial: Journal of Biochemistry and Biotechnology
-
Currents trends in Biotechnology
Pavel JoelEditorial: Journal of Biochemistry and Biotechnology
-
Biotechnology award content 2020
Fuad FaresAwards 2020: Journal of Biochemistry and Biotechnology
-
Biotechnology award content 2020
Fuad FaresAwards 2020: Journal of Biochemistry and Biotechnology
-
Market analysis editorial for international Conference on crystallography and Structural Chemistry
Osman AdiguzelMarket Analysis: Journal of Biochemistry and Biotechnology
-
Market analysis editorial for international Conference on crystallography and Structural Chemistry
Osman AdiguzelMarket Analysis: Journal of Biochemistry and Biotechnology
-
Immobilization of firefly luciferase on the cell plasma membrane as a quantitative biosensor for measurement of ATP in the pericellular space in live mammalian cells
Khue Vu Nguyen, Kefeng Li, Robert K NaviauxResearch Article: Journal of Biochemistry and Biotechnology
-
Immobilization of firefly luciferase on the cell plasma membrane as a quantitative biosensor for measurement of ATP in the pericellular space in live mammalian cells
Khue Vu Nguyen, Kefeng Li, Robert K NaviauxResearch Article: Journal of Biochemistry and Biotechnology
-
Kinetic models for biomass pyrolysis.
Teresa Martí Rosselló, Jun Li, Leo LueReview Article: Journal of Biochemistry and Biotechnology
-
Kinetic models for biomass pyrolysis.
Teresa Martí Rosselló, Jun Li, Leo LueReview Article: Journal of Biochemistry and Biotechnology
Conference Proceedings
-
A probablisitic approach for optimal operation of gas processing plant under uncertain inlet-outlet conditions
Mesfin GetuPosters & Accepted Abstracts: Journal of Industrial and Environmental Chemistry
-
A probablisitic approach for optimal operation of gas processing plant under uncertain inlet-outlet conditions
Mesfin GetuPosters & Accepted Abstracts: Journal of Industrial and Environmental Chemistry
-
Molecular hybridization: Novel methodology for the investigation of biological active heterocyclic moieties
Kamaldeep PaulScientific Tracks Abstracts: Journal of Industrial and Environmental Chemistry
-
Molecular hybridization: Novel methodology for the investigation of biological active heterocyclic moieties
Kamaldeep PaulScientific Tracks Abstracts: Journal of Industrial and Environmental Chemistry
-
Spectral characterization of Cukurbag-Camardi-Nigde clays (Central Anatolian Region- Turkey) and petroleum exploration
Burhan Davarcioglu -
Spectral characterization of Cukurbag-Camardi-Nigde clays (Central Anatolian Region- Turkey) and petroleum exploration
Burhan Davarcioglu -
DETAILED KINETIC INVESTIGATIONS ON THE SELECTIVE OXIDATION OF BIOMASS TO FORMIC ACID (OXFA PROCESS)
Jakob Albert and Jenny ReichertScientific Tracks Abstracts: Journal of Industrial and Environmental Chemistry
-
DETAILED KINETIC INVESTIGATIONS ON THE SELECTIVE OXIDATION OF BIOMASS TO FORMIC ACID (OXFA PROCESS)
Jakob Albert and Jenny ReichertScientific Tracks Abstracts: Journal of Industrial and Environmental Chemistry
-
Materials science & engineering for carbon dioxide (CO2) utilization
Su-Il In -
Materials science & engineering for carbon dioxide (CO2) utilization
Su-Il In