. 2021 Apr 28;121(10):6124–6172. doi: 10.1021/acs.chemrev.0c01264

Table 12. Summary of the Energy Storage Performance of Ceramic MLs.

materials	t (μm)	electrode	E (kV cm^–1)	ΔP (μC cm^–2)	W_rec J cm^–3	η (%)	ref
[0.94(0.75NBT–0.25NN)–0.06BT]–0.1CaZrO₃	30	70Ag/30Pd	120		0.35	77	(440)
BT + BT@SiO₂ *layer structure	10/20		301.4	18	1.8	71.5	(441)
ST + Li₂CO₃)/(0.94NBT–0.06BT) *layer structure	50/12		237	30	2.41	68	(442)
(Pb_0.88Ba_0.05La_0.02Dy_0.04) (Zr_0.68Sn_0.27Ti_0.05)O₃	11	95Pd/5Ag	300	28	2.7	67.4	(435)
0.6NBT–0.4ST	27	75Ag/25Pd	270		2.83	85	(443)
Pb(Zr_0.95Ti_0.05)_0.98Nb_0.02O₃	32				3		(434)
Nb and Mn co-doped 0.9BT–0.1NBT	30	60Ag/40Pd	480	18	3.33	80	(444)
Ca(Zr_0.80Ti_0.20)O₃	10	Pt	1500	6	4		(445)
BT–0.12 Bi(Li_0.5Ta_0.5)O₃	30	Pt	466	25	4.05	95.5	(203)
BT–0.12 Bi(Li_0.5Nb_0.5)O₃	29	Pt	450	25	4.5	91.5	(198)
0.7BT–0.3BiScO₃	25	Pt	730	24	6.1		(33)
15% Nd doped BF–BT	33	Pt	540	39	6.74	77	(90)
BT−0.13Bi[Zn_2/3(Nb_0.85Ta_0.15)_1/3]O₃	11	60Ag/40Pd	790	27	7.8	88	(446)
BT−0.13Bi[Zn_2/3(Nb_0.85Ta_0.15)_1/3]O₃	11	60Ag/40Pd	750	27	8.13	95	(437)
NBT–0.45(Sr_0.7Bi_0.2)TiO₃	30	Pt	720	30	9.5	92	(222)
BF–0.3Ba_0.8Sr_0.2TiO₃–0.06La(Mg_2/3Nb_1/3)O₃	8	Pt	720	43	10	77	(416)
BT−0.13Bi[Zn_2/3(Nb_0.85Ta_0.15)_1/3]O₃	5	60Ag/40Pd	1047	30	10.12	89.4	(438)
BT−0.13Bi[Zn_2/3(Nb_0.85Ta_0.15)_1/3]O₃	9	60Ag/40Pd	1000	30	10.5	93.7	(447)
BF–0.3BT–0.08Nd(Zr_0.5Zn_0.5)O₃	17	Pt	700	34	10.5	87	(34)
Pb_0.98La_0.02(Zr_0.7Sn_0.3)_0.995O₃	20	Pt	560	50	12.6	80	(436)
BF–0.3BT–0.13 Bi(Li_0.5Nb_0.5)O₃	8	Pt	953	45	13.8	81	(276)
BT−0.13Bi[Zn_2/3(Nb_0.85Ta_0.15)_1/3]O₃	4.8	Pt	1500	36	14.1	69.7	(448)
0.50BF–0.40ST–0.10BMN	8	Pt	1000	50	15.8	80	(45)
NBT–0.30(Sr_0.7Bi_0.2)TiO₃–0.08BMN	8	Pt	1000	50	18	93	(337)
BT−0.13Bi[Zn_2/3(Nb_0.85Ta_0.15)_1/3]O₃@SiO₂	4.7	60Ag/40Pd	1755	35	18.24	94.5	(89)
⟨111⟩-textured NBT–0.30SBT	20	Pt	1030	>65	21.5	80	(439)