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Field
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ecosystem functioning, especially belowground. Understanding these interactions is particularly critical for temperate grasslands, which provide essential ecosystem services but are highly threatened and in
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solar light harvesting. Evaluate photocatalytic performance for hydrogen production and wastewater remediation. Characterize materials using different techniques, and link properties to performance
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insights into how interacting drivers, such as nutrient enrichment an drought, affect species diversity and ecosystem functioning, especially belowground. Understanding these interactions is particularly
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diversity and ecosystem functioning, especially belowground. Understanding these interactions is particularly critical for temperate grasslands, which provide essential ecosystem services but are highly
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characterisation techniques; You will identify and implement optimal methods for the integration and testing of materials in real-life conditions; You will perform structure-property correlations and unravel
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Resources Management and Earth System Change groups) at Wageningen University. The position is based within the Sector-plan project “New perspectives on the Water Cycle” to develop novel methods
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geologically-informed screening techniques and performance criteria that enable us to quickly assess rank and identify the most promising fields for cyclic hydrogen storage such that they can be assessed in more
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hydrogen recovery given the different depletion states of the reservoirs. The ultimate aim is to develop a set of geologically-informed screening techniques and performance criteria that enable us to quickly
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production and improved performance. Polyesters, known for their good recyclability and/or biodegradability, are ideal novel candidates but require development to match the properties of the incumbent fossil
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demolition waste. When concrete is demolished, it produces fine powder known as RCFs. With specific treatment, these fines can potentially enhance concrete performance when used as SCMs. However, RCFs can vary