This work aims to measure the properties of continuum and emission lines around CIV, MgII, H{beta}, and H{alpha} for the quasars observed by the extended Baryon Oscillation Spectroscopic Survey (eBOSS) during the first two years. We determine the quasar redshifts based on narrow [OIII]{lambda}5007, broad MgII{lambda}2799, and/or CIV{lambda}1548 emission lines. The comparisons between the visual inspection redshifts included in DR14Q and the redshifts determined by us suggest that the visual inspection redshifts would be robust. We also infer the virial black hole mass of quasars based on CIV, MgII, H{beta}, and/or H{alpha} broad emission lines, using empirical relationships reported by previous studies. Systematic differences are remarkable among different line-based mass estimators reported by previous studies. Using the empirical relationship (Equation (1)), we improve the line-based mass estimators by recalibrating new coefficient (a,b), so that different line-based mass estimators are more consistent. We find that (a,b)=(0.96,0.5), (0.91,0.5), (0.82,0.5), and (0.77,0.5) are the best choices for the H{alpha}-, H{beta}-, MgII-, and CIV-based mass estimators, respectively. All these above properties are publicly available. We also find that the line and continuum luminosities are tightly correlated with each other. The Balmer lines show a negative Baldwin effect, while the metal lines display a positive Baldwin effect. In addition, we find that tight correlations are indwelled in different line luminosities.

Cone search capability for table J/ApJS/244/36/table1 (SDSS-IV/eBOSS quasar catalog)