Green chemistry initiatives
Sustainability & EcoVadis
Sustainability is core to Haizhou Pharm’s strategy and mission, underscored by our strong EcoVadis Silver Award (December 2024).
Our commitment spans:
Environmental Stewardship
Reducing carbon footprint, optimizing resource efficiency, and implementing eco-friendly packaging.
Social Responsibility
Ensuring fair labor practices, community health initiatives, and equitable access to medicines.
Ethical Compliance
Adhering to stringent anti-corruption policies, data integrity standards, and transparent operations.
Sustainable Supply Chain
Partnering with certified suppliers and enforcing rigorous ESG criteria across procurement.
As a trusted global pharmaceutical partner, we align with international standards to deliver quality, accountability and long-term value. Haizhou Pharm integrates sustainability into every step of every process —responsibly, reliably and beyond compliance.
12 Principles of Green Chemistry
Design chemical syntheses to prevent waste. Leave no waste to treat or clean up.
Design synthetic methods so that the final product contains the maximum proportion of the starting materials. Waste as few atoms as possible.
Design less hazardous chemical syntheses
Design synthetic methods that use and generate substances with little or no toxicity to humans and the environment.
Design safer chemicals and products
Design chemical products that are fully effective yet have little or no toxicity.
Use safer solvents and reaction conditions
Avoid using solvents, separation agents, or other auxiliary chemicals. If unavoidable, choose the safest ones available.
Run chemical reactions at ambient temperature and pressure whenever possible.
Use renewable rather than depleting starting materials (feedstocks). Renewable feedstocks are typically derived from agricultural products or waste from other processes; depleting feedstocks are derived from fossil fuels (petroleum, natural gas, or coal) or mining operations.
Avoid blocking or protecting groups or any temporary modifications if possible. Derivatives require additional reagents and generate waste.
Use catalysts, not stoichiometric reagents
Minimize waste by using catalytic reactions. Catalysts are effective in small quantities and can carry out a single reaction many times. They are preferable to stoichiometric reagents, which are used in excess and work only once.
Design chemicals and products to degrade after use
Design chemical products to break down into innocuous substances after use so they do not accumulate in the environment.
Analyze in real time to prevent pollution
Include in-process, real-time monitoring and control during syntheses to minimize or eliminate the formation of by-products.
Minimize the potential for accidents
Design chemicals and their physical forms (solid, liquid, or gas) to minimize the possibility of accidents, including explosions, fires, and releases to the environment.
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