In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍

In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

The plastics industry: a shift towards bio-based solutions

The plastics industry is undergoing a significant shift towards bio-based solutions, offering a more sustainable future. In 2023, the total world production volume of bio-based polymers was 4.4 million tonnes, which is 1% of the total volume of fossil-based polymers. The annual growth of bio-based polymers is 17%, significantly higher than the overall growth of polymers (2-3%)—this is expected to continue until 2028.

Why bioplastics?

Bioplastics are a category of plastics derived from renewable biomass sources like wood, sugarcane, or even algae. They offer several advantages over traditional plastics. Bioplastics utilise renewable resources, decreasing dependence on finite fossil fuels. The production of bioplastics also generally generates fewer greenhouse gases compared to traditional plastics, and certain bioplastics are designed to decompose naturally under specific conditions, reducing landfill waste.

The rise of bioplastics

The bioplastics market is experiencing significant growth, driven by several factors. There is an increasing demand from consumers for sustainable products. Consumers are more environmentally conscious and are demanding eco-friendly alternatives. The plastics industry is also under scrutiny by government bodies, as they are enacting regulations and incentives to combat plastic pollution and encourage the use of bioplastics. Advancements in bioplastics research are leading to the development of new bio-based materials with improved properties and functionality, further prompting the rise of bio-based solutions.

The future of bioplastics

The potential of bioplastics is undeniable. As technology advances and consumer demand for sustainable solutions continues to rise, bioplastics are likely to play an increasingly important role in the future of the plastics industry. Selenis has already dived into the production of bio-based resins, utilising sustainable forest-sourced raw materials for various applications, reducing fossil resource dependency and resulting in at least a 40% reduction in their carbon footprint when compared to a standard solution.

‍