作者:Park, Junyong; Moon, Chan Sik; Lee, Ji Min; Rahat, Sazzadul A.; Kim, Sang Moon; Pham, Jonathan T.; Kappl, Michael; Butt, Hans-Juergen; Wooh, Sanghyuk
作者单位:Chung Ang University; University System of Ohio; University of Cincinnati; Incheon National University; University System of Ohio; University of Cincinnati; Max Planck Society
摘要:Capturing particles with low, nanonewton-scale adhesion is an ongoing challenge for conventional air filters1,2. Inspired by the natural filtration abilities of mucus-coated nasal hairs3,4, we introduce an efficient, biomimetic filter that exploits a thin liquid coating. Here we show that a stable thin liquid layer is formed on several filter media that generates enhanced particulate adhesion, driven by micronewton to sub-micronewton capillary forces5,6. Enhanced particle adhesion increases th...
作者:Porubsky, David; Dashnow, Harriet; Sasani, Thomas A.; Logsdon, Glennis A.; Hallast, Pille; Noyes, Michelle D.; Kronenberg, Zev N.; Mokveld, Tom; Koundinya, Nidhi; Nolan, Cillian; Steely, Cody J.; Guarracino, Andrea; Dolzhenko, Egor; Harvey, William T.; Rowell, William J.; Grigorev, Kirill; Nicholas, Thomas J.; Goldberg, Michael E.; Oshima, Keisuke K.; Lin, Jiadong; Ebert, Peter; Watkins, W. Scott; Leung, Tiffany Y.; Hanlon, Vincent C. T.; McGee, Sean; Pedersen, Brent S.; Happ, Hannah C.; Jeong, Hyeonsoo; Munson, Katherine M.; Hoekzema, Kendra; Chan, Daniel D.; Wang, Yanni; Knuth, Jordan; Garcia, Gage H.; Fanslow, Cairbre; Lambert, Christine; Lee, Charles; Smith, Joshua D.; Levy, Shawn; Mason, Christopher E.; Garrison, Erik; Lansdorp, Peter M.; Neklason, Deborah W.; Jorde, Lynn B.; Quinlan, Aaron R.; Eberle, Michael A.; Eichler, Evan E.
作者单位:University of Washington; University of Washington Seattle; Utah System of Higher Education; University of Utah; University of Colorado System; University of Colorado Anschutz Medical Campus; Jackson Laboratory; University of Kentucky; University of Tennessee System; University of Tennessee Health Science Center; National Aeronautics & Space Administration (NASA); NASA Ames Research Center; University of Pennsylvania; Heinrich Heine University Dusseldorf; Heinrich Heine University Dusseldorf; Heinrich Heine University Dusseldorf Hospital; Heinrich Heine University Dusseldorf; British Columbia Cancer Agency; Cornell University; Weill Cornell Medicine; Cornell University; Weill Cornell Medicine; Cornell University; Weill Cornell Medicine; University of British Columbia; Howard Hughes Medical Institute; University of Washington; University of Washington Seattle
摘要:Understanding the human de novo mutation (DNM) rate requires complete sequence information1. Here using five complementary short-read and long-read sequencing technologies, we phased and assembled more than 95% of each diploid human genome in a four-generation, twenty-eight-member family (CEPH 1463). We estimate 98-206 DNMs per transmission, including 74.5 de novo single-nucleotide variants, 7.4 non-tandem repeat indels, 65.3 de novo indels or structural variants originating from tandem repeat...
作者:Bartee, Samuel K.; Gilbert, Will; Zuo, Kun; Das, Kushal; Tanttu, Tuomo; Yang, Chih Hwan; Stuyck, Nard Dumoulin; Pauka, Sebastian J.; Su, Rocky Y.; Lim, Wee Han; Serrano, Santiago; Escott, Christopher C.; Hudson, Fay E.; Itoh, Kohei M.; Laucht, Arne; Dzurak, Andrew S.; Reilly, David J.
作者单位:University of Queensland; University of Sydney; University of New South Wales Sydney; Keio University
摘要:A key virtue of spin qubits is their sub-micron footprint, enabling a single silicon chip to host the millions of qubits required to execute useful quantum algorithms with error correction1, 2-3. However, with each physical qubit needing multiple control lines, a fundamental barrier to scale is the extreme density of connections that bridge quantum devices to their external control and readout hardware4, 5-6. A promising solution is to co-locate the control system proximal to the qubit platfor...
