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I am inspired by the complexity of the microbial world and the astonishing progress we have made in the field of microbial ecology over the past few decades. This progress continuously motivates me to rethink engineered systems so we can better harness the power of microorganisms to treat water and recover resources from waste streams. Most of the research projects my team and I work on strive to understand and improve various aspects of the engineered water cycle microbiome to improve human health using sustainable design approaches. We especially focus on resource recovery from waste streams and on microbial aspects of drinking water systems including biofiltration, disinfection, distribution and building plumbing biostability.
I am inspired by the complexity of the microbial world and the astonishing progress we have made in the field of microbial ecology over the past few decades. This progress continuously motivates me to rethink engineered systems so we can better harness the power of microorganisms to treat water and recover resources from waste streams. Most of the research projects my team and I work on strive to understand and improve various aspects of the engineered water cycle microbiome to improve human health using sustainable design approaches. We especially focus on resource recovery from waste streams and on microbial aspects of drinking water systems including biofiltration, disinfection, distribution and building plumbing biostability.
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论文共 25 篇作者统计合作学者相似作者
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BIORESOURCE TECHNOLOGY (2021): 125001-125001
medrxiv(2020)
bioRxiv (Cold Spring Harbor Laboratory) (2020)
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