[1] CANET D. Nuclear magnetic resonance: concepts and methods ［M］. New York: Wiley, 1996.

[2] SLICHTER C P. Principles of magneitc resonance ［M］. New York: Springer-Verlag, 1992.

[3] EIDMANN G, SAVELSBERG R, BLUMLER P, et al. The NMR mouse, a mobile universal surface explorer ［J］. J Magn Reson A, 1996, 122(1): 104-109.

[4] ANDERS J, CHIARAMONTE G, SANGIORGIO P,et al. A single-chip array of NMR receivers ［J］. J Magn Reson, 2009, 201(2): 239-249.

[5] CHERIFY T, ABOUCHI N, LU G N, et al. A CMOS microcoil-associated preamplifier for NMR spectroscopy ［J］. IEEE Trans Circ Syst I: Reg Pap, 2005, 52(12): 2576-2583.

[6] LIU Y, SUN N, LEE H,et al. CMOS mini nuclear magnetic resonance system and its application for biomolecular sening ［C］ // Proceed IEEE ISSCC. San Francisco, CA, USA. 2008: 140-141.

[7] SUN N, LIU Y, LEE H,et al. CMOS RF biosensor utilizing nuclear magnetic resonance ［J］. IEEE J Sol Sta Circ, 2009, 44(5): 1629-1643.

[8] SUN N, YOON T J, LEE H, et al. Plam NMR and 1-chip NMR ［J］. IEEE J Sol Sta Circ, 2011, 46(1): 342-352.

[9] LI F, CHENG S. A highly digital ADC with enchanced accuracy using a simple ripple-transferring replica pseudo PLL technique ［J］. IEEE Trans Circ Syst II: Exp Briefs, 2019, 66(2): 197-201.

[10] ANDERS J, HANDWERKER J, ORTMANNS M,et al. A fully-integrated detector for NMR microscopy in 013 μm CMOS ［C］ // Procced IEEE A-SSCC. Singapore. 2013: 437-440.