https://www.selleckchem.com/products/acalabrutinib.html Air and water pollution poses a serious threat to public health and the sustainable development of the ecological environment. Here, we report the fabrication of new low-resistance nanofilters based on thiophene-based conjugated microporous polymer (T-CMP) nanotubes to remove harmful particulate matter (PM) from air effectively. T-CMP nanotube filters feature inherent superhydrophobicity and hierarchical pores and are prepared by a facile one-pot synthesis. The PM removal efficiency of T-CMP nanotube filters at 90 ± 5% relative humidity exceeds 99.798 ± 0.055% for PM0.3 and 99.998 ± 0.002% for PM2.5, while the lowest pressure drop in the filtration system is only 5 Pa, which is 1-2 orders of magnitude lower than that of traditional fiber-based filters. Benefitting from their excellent porous feature and intrinsic superhydrophobicity, T-CMP nanotube filters also display higher flux during continuous oil-water separation. Based on this superior separation performance, better physicochemical stability, facile manufacturing, and easy scaling-up, such T-CMP nanotube filters might hold great potential for a wide range of applications even under harsh conditions, including PM removal, water treatment, and so on. Today, healthcare providers are not only charged with providing high-quality evidence-based care to improve patient outcomes, but also with completing quick patient visits due to time constraints to necessitate financial reimbursement. This article summarizes current evidence to determine best practices for managing outpatient wait times and improve outcomes, satisfaction, quality, and continuity of care. Today, healthcare providers are not only charged with providing high-quality evidence-based care to improve patient outcomes, but also with completing quick patient visits due to time constraints to necessitate financial reimbursement. This article summarizes current evidence to determine best practices for m