Biotechnology for the Environment is a companion journal to:
Biotechnology for Biofuels and Bioproducts
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The global plastic waste crisis has triggered the development of novel methods for removal of recalcitrant polymers from the environment. Biotechnological approaches have received particular attention due to t...
One of the waste-to-energy conversion technologies is the use of waste from the processing of medicinal plants to create biogas, which may then be used to generate electricity. The maximum capacity for produci...
Textile industries discharge significant amounts of toxic chemicals, including residual dyes and various other xenobiotic compounds, into the environment, leading to adverse effects such as toxicity, mutagenic...
Electronic waste, also known as e-waste, is the discarded or by-products of electronic appliances, constituting a major percentage of the total solid waste produced globally. Such e-waste is mostly composed of...
Diversifying the use of climate-smart crops such as sweet sorghum has the potential to solve integrated food, bioenergy, feed, and land management problems. The study’s purpose is to quantify the sugar content of...
Furans, such as 5-hydroxymethylfurfural (HMF), are compounds of great importance that can serve as starting materials for the synthesis of polymers. Their production from lignocellulose-derived sugar streams o...
Biotechnology for the Environment is a companion journal to:
Biotechnology for Biofuels and Bioproducts