Role of intermediate phase for stable cycling of Na7V4(P2O7)4PO4 in sodium ion battery

Soo Yeon Lim, Heejin Kim, Jaehoon Chung, J. Hoon Lee, Byung Gon Kim, Jeon Jin Choi, Kyung Yoon Chung, Woosuk Cho, Seung Joo Kim, William A. Goddard, Yousung Jung, Jang Wook Choi

Research output: Contribution to journalArticlepeer-review

139 Scopus citations

Abstract

Sodium ion batteries offer promising opportunities in emerging utility grid applications because of the low cost of raw materials, yet low energy density and limited cycle life remain critical drawbacks in their electrochemical operations. Herein, we report a vanadium-based ortho-diphosphate, Na7V4(P2O7)4PO4, or VODP, that significantly reduces all these drawbacks. Indeed, VODP exhibits single-valued voltage plateaus at 3.88 V vs. Na/Na+ while retaining substantial capacity (>78%) over 1,000 cycles. Electronic structure calculations reveal that the remarkable single plateau and cycle life originate from an intermediate phase (a very shallow voltage step) that is similar both in the energy level and lattice parameters to those of fully intercalated and deintercalated states. We propose a theoretical scheme in which the reaction barrier that arises from lattice mismatches can be evaluated by using a simple energetic consideration, suggesting that the presence of intermediate phases is beneficial for cell kinetics by buffering the differences in lattice parameters between initial and final phases. We expect these insights into the role of intermediate phases found for VODP hold in general and thus provide a helpful guideline in the further understanding and design of battery materials.

Original languageEnglish
Pages (from-to)599-604
Number of pages6
JournalProceedings of the National Academy of Sciences of the United States of America
Volume111
Issue number2
DOIs
StatePublished - 2014

Keywords

  • Ab initio calculation
  • Atomic reorganization
  • Cathode
  • Single voltage

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