Low-activated Li-ion mobility and metal to semiconductor transition in CdP sub(2)Li phases

• Published in: Journal of materials chemistry. A, Materials for energy and sustainability Vol. 3; no. 12; pp. 6484 - 6491
• Main Authors: Eckstein, N, Krueger, I, Bachhuber, F, Weihrich, R, Barquera-Lozada, JE, van Wuellen, L, Nilges, Tom
• Format: Journal Article
• Language: English
• Published: 01.03.2015
• Subjects: Activation; Cadmium; Channels; Ion mobility; Ionic mobility; Lithium; Quantum chemistry; Semiconductors; Sustainability; Australia, New South Wales, Barrier Ranges
• ISSN: 2050-7488; 2050-7496
• DOI: 10.1039/c5ta00471c

Solids with high ion mobility are of broad interest for energy storage applications. New systems featuring low-activated ion mobility are important to improve the performance in such systems. Herein we report on a model system dealing with such improved properties. Li sub(0.2)CdP sub(2) was synthesized from the elements, lithium as structure stabilizer and CdI sub(2) as reaction promoters in sealed silica ampoules at 823 K. It crystallizes tetragonal, in space group I4 sub(1)22 ( alpha -CdAs sub(2) structure type), with lattice parameters a= 7.6691(8) Aa, c= 4.4467(4) Aa and V= 261.53(4) Aa super(3). After 24 h of storage in air lithium ions can be removed in a spontaneous delithiation reaction resulting in Li(OH).H sub(2)O formation on the surface of the crystals. Formed alpha '-CdP sub(2) adopts the alpha -CdAs sub(2) structure type. Both compounds consist of isolated cadmium atoms and helical super(1) sub( infinity )[P super(-)]-chains generating empty channels suitable to accommodate Li ions. The heavy atom structure was determined by X-ray diffraction methods while a full model including lithium was derived from a combined solid state NMR and quantum chemical calculation approach. An low activation barrier range in the order of 0.1 to 0.2 eV was determined by NMR spectroscopy pointing towards an extraordinary high Li mobility in Li sub(0.2)CdP sub(2). Of course a Cd-based solid will have certain disadvantages like toxicity and mass for storage applications but substitution of Cd by suitable lighter elements can solve this issue.