. 2023 Oct 5;8(41):37685–37719. doi: 10.1021/acsomega.3c05285

Table 2. Literature Review Table for Evaporation Techniques.

	Physical Parameters
Material	Temperature	Pressure	Crystal Structure	Morphology	Configuration	Electrolyte	Type	PW	SC	ED	PD	Capacitive retention @ cycles	Ref
Thermal
Cu		1 × 10^–6 Torr			Solid state	LiF	Symmetric	–0.4 to 1.0	10 μF/cm²				(99)
Mo-V₂O₅		5 × 10^–5 mbar	Orthorhombic		Liquid state (3 electrodes)	1 M KCl	-	0.1 to 0.7	175 mF/cm² @ 1 mA/cm²				(103)
V₂O₅	300 °C	1 × 10^–6 mbar	Orthorhombic	Nanograins	Liquid state (3 electrodes)	1 M LiSO₄	-	–0.6 to 0	730 mF/cm² @ 1 mA/cm²				(104)
V₂O₅		10^–5 mbar	Orthorhombic	Nonuniform particles	Solid state	PVA-KOH	Symmetric	0 to 1.0	9.7 mF/cm²	0.68 μWh/cm²	180 μW/cm²	97% @ 30000	(105)
Al-CuI		2 × 10^–5 mbar	Cubic	Nanocubes	Liquid state (3 electrodes)	0.1 M Na₂SO₄		–1 to 1	142.8 F/g @ 2 mV/s			89.1% @ 2000	(106)
E beam
MnO_x		5 × 10^–6 mbar	Amorphous	Nanoclusters	Liquid state (3 electrodes)	0.5 M Na₂SO₄		–0.4 to 1.0	320 F/g @ 10 mV/s				(107)
NiO		5 × 10^–6 mbar	Crystalline	Round rock	Liquid state (3 electrodes)	1 M Et₄NBF₄		–0.4 to 1.0	187.2 F/g @ 25 mV/s			100% @ 5000	(108)
WO₃		5 × 10^–6 mbar	Amorphous	Round rock	Liquid state (3 electrode)	1 M Et₄NBF₄		–0.4 to 1.0	194.8 F/g @ 25 mV/s			100% @ 5000	(108)
Mn₃O₄	473 K	6 × 10^–4 mbar	Tetragonal	Nanoflower	Liquid state (3 electrodes)	1 M Na₂SO₄		–0.1 to 0.9	568 F/g @ 1 A/g			93% @ 5000	(109)
N-G-Carbon		3.5 × 10^–6 mbar	Crystalline	Nano onions	Solid state	PVA-H₂SO₄	Symmetric	0 to 1	1.16 mF/cm² @ 10 mV/s	0.16 μWh/cm²	24.87 μW/cm²	80% @ 10000	(110)
Mn₃O₄	473 K	6 × 10^–4 mbar	Tetragonal	Flakes	Liquid state (3 electrodes)	1 M Na₂SO₄		–0.1 to 0.9	754 F/g @ 1 A/g			89% @ 4000	(111)