Xian Qin

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The ultimate frontier in nanomaterials engineering is to realize their composition control with atomic scale precision to enable fabrication of nanoparticles with desirable size, shape and surface properties. Such control becomes even more useful when growing hybrid nanocrystals designed to integrate multiple functionalities. Here we report achieving such(More)
Human respiratory syncytial virus (RSV) is recognized as a leading pathogen responsible for severe respiratory infections in the pediatric population, particularly in infants and young children. A previous study by the same study group revealed that the RSV BA strain was prevalent in southwestern China in epidemic seasons from 2008 to 2009. The aim of this(More)
  • Xian Qin, Nitesh Kumbhat, Markondeya Raj, Venky Sundaram, Rao Tummala
  • 2014
— Interposers that support high input/output density are becoming critical for system miniaturization and high performance. Silicon and glass are emerging as the primary candidates for such high-density interposers, due to their outstanding dimensional stability, which enables layer-to-layer wiring with small vias. However, silicon and glass have very low(More)
BACKGROUND In this study, we intended to understand the regulatory mechanisms of microRNA-125a-5p (miR-125a-5p) in human cervical carcinoma. METHODS The gene expressions of miR-125a-5p in seven cervical carcinoma cell lines and 12 human cervical carcinoma samples were evaluated by quantitative real-time reverse transcription polymerase chain reaction.(More)
  • Xian Qin, Markondeya Raj, Vanessa Smet, Rao Tummala
  • 2015
— This paper reports compliant microwire copper arrays, in thin polymer carriers, as an innovative approach for direct surface mount technology (SMT) attach of large silicon, glass, and low coefficient of thermal expansion organic interposers to printed wiring boards (PWBs). The microwire arrays (MWAs) are prefabricated as free-standing ultrathin carriers(More)
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