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Xinxin Li
Researcher at Chinese Academy of Sciences
Publications - 561
Citations - 10223
Xinxin Li is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Surface micromachining & Piezoresistive effect. The author has an hindex of 46, co-authored 493 publications receiving 8332 citations. Previous affiliations of Xinxin Li include Tohoku University & Chonnam National University.
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A silicon integrated micro nano-positioning XY-stage for nano-manipulation
TL;DR: In this article, an integrated micro XY-stage with a 2 × 2 mm2 movable table is designed and fabricated for application in nanometer-scale operation and nanometric positioning precision.
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The catalytic-induced sensing effect of triangular CeO2 nanoflakes for enhanced BTEX vapor detection with conventional ZnO gas sensors
TL;DR: In this paper, a novel bi-layer sensing structure is proposed for trace-level BTEX detection, where the insulated CeO2 catalyst is coated onto the top-surface of a ZnO sensing layer.
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Nanogram per milliliter-level immunologic detection of alpha-fetoprotein with integrated rotating-resonance microcantilevers for early-stage diagnosis of heptocellular carcinoma.
TL;DR: An advanced resonant microcantilever sensor developed and used for screening the tumor marker at nanogram per milliliter level is promising in low-cost or even disposable early-stage prognosis and diagnosis of tumors.
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Micro-/Nanocombined Gas Sensors With Functionalized Mesoporous Thin Film Self-Assembled in Batches Onto Resonant Cantilevers
TL;DR: With -NH2-group-functionalized MTF directly grown onto the surface of the cantilever free end, the micro-/nanocombined gravimetric sensor has experimentally exhibited quick response and highly sensitive detection of CO2 gas.
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Metal–Organic Frameworks for Resonant-Gravimetric Detection of Trace-Level Xylene Molecules
TL;DR: This research approves that the MOF materials exhibit potential usages for high performance chemical sensors applications and indicates that the sensor shows good selectivity to various kinds of common interfering gases.