Challenges and opportunities for computer-aided molecular and process design approaches in advancing sustainable pharmaceutical manufacturing

IF 8 2区工程技术 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Current Opinion in Chemical Engineering Pub Date : 2025-01-11 DOI:10.1016/j.coche.2024.101073

Claire S Adjiman, Amparo Galindo

引用次数: 0

Abstract

Pharmaceutical manufacturing gives rise to a large amount of waste per kilogram of active ingredient, a growing concern with the trend towards larger therapeutic molecules. Achieving better sustainability requires new approaches to process development. We explore the role that computer-aided molecular (and process) design (CAMPD) methods can play, highlighting the value of an end-to-end design mindset that can enable a more holistic assessment of sustainability. We discuss the challenges that must be overcome to deploy such an approach, identifying new structure-property models and the integration of CAMPD with process synthesis and computer-aided synthesis planning as possible research directions.

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来源期刊

Current Opinion in Chemical Engineering BIOTECHNOLOGY & APPLIED MICROBIOLOGYENGINE-ENGINEERING, CHEMICAL

CiteScore

12.80

自引率

3.00%

发文量

114

期刊介绍： Current Opinion in Chemical Engineering is devoted to bringing forth short and focused review articles written by experts on current advances in different areas of chemical engineering. Only invited review articles will be published. The goals of each review article in Current Opinion in Chemical Engineering are: 1. To acquaint the reader/researcher with the most important recent papers in the given topic. 2. To provide the reader with the views/opinions of the expert in each topic. The reviews are short (about 2500 words or 5-10 printed pages with figures) and serve as an invaluable source of information for researchers, teachers, professionals and students. The reviews also aim to stimulate exchange of ideas among experts. Themed sections: Each review will focus on particular aspects of one of the following themed sections of chemical engineering: 1. Nanotechnology 2. Energy and environmental engineering 3. Biotechnology and bioprocess engineering 4. Biological engineering (covering tissue engineering, regenerative medicine, drug delivery) 5. Separation engineering (covering membrane technologies, adsorbents, desalination, distillation etc.) 6. Materials engineering (covering biomaterials, inorganic especially ceramic materials, nanostructured materials). 7. Process systems engineering 8. Reaction engineering and catalysis.