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Jing Li

Researcher at Rutgers University

Publications -  1145
Citations -  53184

Jing Li is an academic researcher from Rutgers University. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 98, co-authored 811 publications receiving 43430 citations. Previous affiliations of Jing Li include Chinese Ministry of Education & Stony Brook University.

Papers
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Luminescent metal–organic frameworks for chemical sensing and explosive detection

Zhichao Hu, +2 more
- 22 Jul 2014 - 
TL;DR: This review intends to provide an update of work published since then and focuses on the photoluminescence properties of MOFs and their possible utility in chemical and biological sensing and detection.
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The LHCb detector at the LHC

A. A. Alves, +889 more
- 01 Aug 2008 - 
TL;DR: The LHCb experiment is dedicated to precision measurements of CP violation and rare decays of B hadrons at the Large Hadron Collider (LHC) at CERN (Geneva).
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Metal-organic frameworks: functional luminescent and photonic materials for sensing applications.

William P. Lustig, +5 more
- 06 Jun 2017 - 
TL;DR: This comprehensive review summarizes the topical developments in the field of luminescent MOF and MOF-based photonic crystals/thin film sensory materials.
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A Luminescent Microporous Metal–Organic Framework for the Fast and Reversible Detection of High Explosives

Anjian Lan, +7 more
- 16 Mar 2009 - 
TL;DR: A highly luminescent microporous metal-organic framework is capable of very fast and reversible detection of the vapors of the nitroaromatic explosive 2,4-dinitrotoluene and the plastic explosive taggant 2,3-dimethyl-2,3 -dinitrobutane through redox fluorescence quenching with unprecedented sensitivity.
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New Microporous Metal−Organic Framework Demonstrating Unique Selectivity for Detection of High Explosives and Aromatic Compounds

Sanhita Pramanik, +4 more
- 08 Mar 2011 - 
TL;DR: A highly luminescent three-dimensional microporous metal-organic framework, [Zn(2)(oba)(2)(bpy)]·DMA, demonstrates unique selectivity for the detection of high explosives and other aromatics via a fluorescence quenching and enhancement mechanism.