Year |
Citation |
Score |
2019 |
Chung CHY, Cui B, Song R, Liu X, Xu X, Yao S. Scalable Production of Monodisperse Functional Microspheres by Multilayer Parallelization of High Aspect Ratio Microfluidic Channels. Micromachines. 10. PMID 31509956 DOI: 10.3390/Mi10090592 |
0.324 |
|
2018 |
Hou Y, Shang Y, Yu M, Feng C, Yu H, Yao S. Tunable Water Harvesting Surfaces Consisting of Biphilic Nanoscale Topography. Acs Nano. PMID 30346698 DOI: 10.1021/Acsnano.8B05163 |
0.308 |
|
2018 |
Xu X, Yuan H, Song R, Yu M, Chung HY, Hou Y, Shang Y, Zhou H, Yao S. High aspect ratio induced spontaneous generation of monodisperse picolitre droplets for digital PCR. Biomicrofluidics. 12: 014103. PMID 29333205 DOI: 10.1063/1.5011240 |
0.365 |
|
2018 |
Shang Y, Hou Y, Yu M, Yao S. Modeling and optimization of condensation heat transfer at biphilic interface International Journal of Heat and Mass Transfer. 122: 117-127. DOI: 10.1016/J.Ijheatmasstransfer.2018.01.108 |
0.346 |
|
2017 |
Xu X, Song R, He M, Peng C, Yu M, Hou Y, Qiu H, Zou R, Yao S. Microfluidic production of nanoscale perfluorocarbon droplets as liquid contrast agents for ultrasound imaging. Lab On a Chip. PMID 28933795 DOI: 10.1039/C7Lc00056A |
0.315 |
|
2016 |
Jiang L, Yao S. A three-dimensional flow focusing microsecond mixer for dynamic assessment of nanoparticle formation Ieee Transactions On Nanotechnology. 15: 828-835. DOI: 10.1109/Tnano.2016.2598242 |
0.303 |
|
2015 |
Jiang L, Zeng Y, Sun Q, Sun Y, Guo Z, Qu JY, Yao S. Microsecond protein folding events revealed by time-resolved fluorescence resonance energy transfer in a microfluidic mixer. Analytical Chemistry. 87: 5589-95. PMID 25938953 DOI: 10.1021/Acs.Analchem.5B00366 |
0.32 |
|
2015 |
Yu M, Hou Y, Zhou H, Yao S. An on-demand nanofluidic concentrator. Lab On a Chip. 15: 1524-32. PMID 25631949 DOI: 10.1039/C4Lc01480D |
0.303 |
|
2015 |
Hou Y, Yu M, Chen X, Wang Z, Yao S. Recurrent filmwise and dropwise condensation on a beetle mimetic surface. Acs Nano. 9: 71-81. PMID 25482594 DOI: 10.1021/Nn505716B |
0.325 |
|
2014 |
Zhou H, Yao S. A facile on-demand droplet microfluidic system for lab-on-a-chip applications Microfluidics and Nanofluidics. 16: 667-675. DOI: 10.1007/S10404-013-1268-8 |
0.354 |
|
2013 |
Chen X, Ma R, Zhou H, Zhou X, Che L, Yao S, Wang Z. Activating the microscale edge effect in a hierarchical surface for frosting suppression and defrosting promotion. Scientific Reports. 3: 2515. PMID 23981909 DOI: 10.1038/Srep02515 |
0.312 |
|
2013 |
Jiang L, Wang W, Chau Y, Yao S. Controllable formation of aromatic nanoparticles in a three-dimensional hydrodynamic flow focusing microfluidic device Rsc Advances. 3: 17762. DOI: 10.1039/C3Ra42071J |
0.308 |
|
2012 |
Waldauer SA, Wu L, Yao S, Bakajin O, Lapidus LJ. Microfluidic mixers for studying protein folding. Journal of Visualized Experiments : Jove. PMID 22525257 DOI: 10.3791/3976 |
0.355 |
|
2012 |
Xu L, Li Z, Yao S. Directional motion of evaporating droplets on gradient surfaces Applied Physics Letters. 101: 64101. DOI: 10.1063/1.4742860 |
0.326 |
|
2012 |
Rykaczewski K, Osborn WA, Chinn J, Walker ML, Scott JHJ, Jones W, Hao C, Yao S, Wang Z. How nanorough is rough enough to make a surface superhydrophobic during water condensation? Soft Matter. 8: 8786-8794. DOI: 10.1039/C2Sm25502B |
0.332 |
|
2012 |
Cao Z, Yuan L, Liu YF, Yao S, Yobas L. Microchannel plate electro-osmotic pump Microfluidics and Nanofluidics. 13: 279-288. DOI: 10.1007/S10404-012-0959-X |
0.352 |
|
2011 |
Wu J, Ma R, Wang Z, Yao S. Do droplets always move following the wettability gradient? Applied Physics Letters. 98: 204104. DOI: 10.1063/1.3592997 |
0.315 |
|
2011 |
Chen X, Wu J, Ma R, Hua M, Koratkar N, Yao S, Wang Z. Nanograssed Micropyramidal Architectures for Continuous Dropwise Condensation Advanced Functional Materials. 21: 4617-4623. DOI: 10.1002/Adfm.201101302 |
0.337 |
|
2008 |
Waldauer SA, Bakajin O, Ball T, Chen Y, Decamp SJ, Kopka M, Jäger M, Singh VR, Wedemeyer WJ, Weiss S, Yao S, Lapidus LJ. Ruggedness in the folding landscape of protein L. Hfsp Journal. 2: 388-95. PMID 19436489 DOI: 10.2976/1.3013702 |
0.306 |
|
2007 |
Yao S, Bakajin O. Improvements in mixing time and mixing uniformity in devices designed for studies of protein folding kinetics. Analytical Chemistry. 79: 5753-9. PMID 17583912 DOI: 10.1021/Ac070528N |
0.382 |
|
2007 |
Lapidus LJ, Yao S, McGarrity KS, Hertzog DE, Tubman E, Bakajin O. Protein hydrophobic collapse and early folding steps observed in a microfluidic mixer. Biophysical Journal. 93: 218-24. PMID 17416618 DOI: 10.1529/Biophysj.106.103077 |
0.661 |
|
2007 |
Lin CW, Yao S, Posner JD, Myers AM, Santiago JG. Toward orientation-independent design for gas recombination in closed-loop electroosmotic pumps Sensors and Actuators, B: Chemical. 128: 334-339. DOI: 10.1016/J.Snb.2007.05.029 |
0.636 |
|
2006 |
Kenny TW, Goodson KE, Santiago JG, Wang E, Koo JMO, Jiang L, Pop E, Sinha S, Zhang L, Fogg D, Yao S, Flynn R, Chang CH, Hidrovo CH. Advanced cooling technologies for microprocessors International Journal of High Speed Electronics and Systems. 16: 301-313. DOI: 10.1142/S0129156406003655 |
0.511 |
|
2004 |
Yao S, Myers AM, Posner JD, Santiago JG. Electroosmotic pumps fabricated from porous silicon membranes American Society of Mechanical Engineers, Fluids Engineering Division (Publication) Fed. 260: 185-190. DOI: 10.1109/Jmems.2006.876796 |
0.646 |
|
2003 |
Yao S, Hertzog DE, Zeng S, Mikkelsen JC, Santiago JG. Porous glass electroosmotic pumps: design and experiments. Journal of Colloid and Interface Science. 268: 143-53. PMID 14611783 DOI: 10.1016/S0021-9797(03)00730-6 |
0.676 |
|
2003 |
Yao S, Santiago JG. Porous glass electroosmotic pumps: theory. Journal of Colloid and Interface Science. 268: 133-42. PMID 14611782 DOI: 10.1016/S0021-9797(03)00731-8 |
0.553 |
|
2002 |
Jiang L, Mikkelsen J, Koo J, Huber D, Yao S, Zhang L, Zhou P, Maveety JG, Prasher R, Santiago JG, Kenny TW, Goodson KE. Closed-loop electroosmotic microchannel cooling system for VLSI circuits Ieee Transactions On Components and Packaging Technologies. 25: 347-355. DOI: 10.1109/Tcapt.2002.800599 |
0.535 |
|
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