Nanostructured Polymer Coatings, Filters, Batteries, and Hydrovoltaic Devices

纳米结构聚合物涂层、过滤器、电池和水力发电设备

• 批准号: RGPIN-2019-04307
• 负责人: Liu, Guojun
• 金额: $ 7.65万
• 依托单位: Queen's University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=747979
• 关键词: Nanostructured; Polymer; Coatings; Filters; Batteries

Polymer nanoscience has witnessed explosive growth in the past 25 years. It is now time to leverage these advancements for fabricating functional nanomaterials for applications that benefit society and Canada. Liu's research focuses on applications of polymeric nanomaterials.  Firstly, Liu's group will advance NP-GLIDE coatings that bear nano-pools of a grafted lubricating ingredient for dewetting enablement so that the future generations of these coatings will be anti-fouling, anti-icing, or more wear-resistant. NP-GLIDE coatings are transparent and readily bind to various substrates.  On their slippery surfaces common liquids such as wine, coffee, muddy water, and cooking oils have no problem to cleanly glide. Moreover, graffiti paints and fingerprint liquids contract on these surfaces. While the existing NP-GLIDE coatings are sufficient for many applications and are being commercialised by a Canadian company, they need to be improved to fulfil more challenging applications. For example, the current anti-fingerprint coating does not last more than several months on the touchscreen of a cellphone or tablet. An effective coating that survives the lifetime of the device will require more wear resistance. For anti-icing applications, the ice adhesion force needs to be decreased by 2 to 3 folds despite the already low values on our existing NP-GLIDE coatings. The challenge for using an NP-GLIDE coating for anti-fouling applications on the hulls of ships requires that the coating maintains its slippery properties even after extended immersion in water. Liu's group are addressing these issues to achieve the full potentials of the NP-GLIDE coatings.  Secondly, they will advance their nano-engineered high-flux filters that separate oil from emulsions. Covering the mouths of large barrels, these filters can, for example, be used to scoop up oil from the surface of a lake or an ocean after an oil spill. Liu is now examining whether these filters can be used to separate glycerol from a renewable fuel, biodiesel, reducing environmental impact of biodiesel production.  Liu's group is also developing filters that can separate ethanol from water and eliminate ethanol distillation and reduce energy consumption during the liquor production process. Thirdly, they are developing nano-designed batteries that have the potential to be charged at a much faster rate than the existing ones. Such batteries have the potential to promote the acceptance of future electric vehicles. They are also developing devices that can generate electricity from tidal waves or even from water or sweat evaporation, leading to cleaner alternative energies. In summary, Liu's research is aimed at the use of fundamental knowledge for the creation of new nanotechnologies and products to benefit society and Canada. Through his research, he will train highly qualified research personnel for Canadian universities and industry.

聚合物纳米科学在过去的25年里经历了爆炸性的增长。现在是时候利用这些进步来制造功能性纳米材料，以造福社会和加拿大。刘的研究重点是聚合物纳米材料的应用。 首先，Liu的团队将推进NP-GLIDE涂层，该涂层具有接枝润滑成分的纳米池，用于去湿，以便这些涂层的未来一代将具有防污，防冰或更耐磨。NP-GLIDE涂层是透明的，易于与各种基材结合。在其光滑的表面上，常见的液体，如葡萄酒，咖啡，泥水和食用油都没有问题，可以清洁地滑动。此外，涂鸦颜料和指纹液体在这些表面上收缩。虽然现有的NP-GLIDE涂层足以满足许多应用，并且正在由一家加拿大公司商业化，但它们需要改进以满足更具挑战性的应用。例如，目前的防指纹涂层在手机或平板电脑的触摸屏上不会持续几个月。在器械使用寿命内有效的涂层将需要更高的耐磨性。对于防冰应用，尽管我们现有的NP-GLIDE涂层已经很低，但冰附着力需要降低2到3倍。将NP-GLIDE涂料用于船体上的防污应用的挑战要求该涂料即使在长时间浸入水中后也保持其光滑特性。Liu的团队正在解决这些问题，以充分发挥NP-GLIDE涂层的潜力。 其次，他们将推进他们的纳米工程高通量过滤器，从乳液中分离油。例如，这些过滤器可以覆盖在大桶的开口处，用于在石油泄漏后从湖泊或海洋表面舀起石油。目前，刘正研究这些过滤器是否可以用于从可再生燃料生物柴油中分离甘油，以减少生物柴油生产对环境的影响。刘的团队还在开发过滤器，可以将乙醇从水中分离出来，消除乙醇蒸馏，减少白酒生产过程中的能源消耗。 第三，他们正在开发纳米设计的电池，这种电池有可能以比现有电池快得多的速度充电。这种电池有可能促进未来电动汽车的接受。他们还在开发可以通过潮汐波甚至水或汗水蒸发发电的设备，从而产生更清洁的替代能源。总之，刘的研究旨在利用基础知识创造新的纳米技术和产品，以造福社会和加拿大。通过他的研究，他将为加拿大大学和工业界培养高素质的研究人才。