Narrow Results

Devices such as solar and fuel cells have been studied for many decades and noticeable improvements have been achieved. This paper proposes a Micro Photosynthetic Power Cell (μPSC) as an alternative energy-harvesting device based on photosynthesis of blue-green algae. The effect of important biodesign parameters on the performance of the device, such as no-load performance and voltage–current (V–I) characteristics, were studied. Open-circuit voltage as high as 993 mV was measured while a peak power of 175.37 μW was obtained under an external load of 850 Ω. The proposed μPSC device could produce a power density of 36.23 μW/cm², voltage density of 80 mV/cm² and current density of 93.38 μA/cm² under test conditions.

Membrane technologies are essential for water treatment, bioprocessing and chemical manufacturing. Stimuli-responsive membranes respond to changes in feed conditions (e.g., temperature, pH) or external stimuli (e.g., magnetic field, light) with a change in performance parameters (permeability, selectivity). This enables new functionalities such as tunable performance, self-cleaning and smart-valve behavior. Polymer self-assembly is a crucial tool for manufacturing such membranes using scalable methods, enabling easier commercialization. This review surveys approaches to impart stimuli responsive behavior to membrane filters using polymer self-assembly.

Chemical approaches to creating new drug delivery systems and biomaterials are discussed. These delivery systems have been used to study how blood vessels grow and how different molecules affecting the brain behave. They have also been used in treatments ranging from schizophrenia to brain cancer.

By synthesizing new polymeric materials and combining them with growth factors or cells, new tissues and organs can potentially be created for use in drug testing-thereby potentially reducing animal and human testing- and to treat disease. Examples discussed include blood vessels, heart muscle, spinal cord repair, artifi cial skin, cartilage, and pancreas.