Hydrogen generation using sodium borohydride solution and metal catalyst coated on metal oxide

“…[11] In the absence of an alkaline solution, NaBH 4 spontaneously reacts with water. [23] The hydrolysis of NaBH 4 can effectively liberate hydrogen at room temperature in the presence of a catalyst via the following reaction [Equation (1)]: [10,12,22,[24][25][26] …”

“…It is reported that 4 equivalents of hydrogen can be completely generated in 16 min in the presence of 1.5 wt % Pt-LiCoO 2 , one of the most active catalysts for this reaction (molar ratio: Pt/NaBH 4 = 0.0002). [26] For Pt-based catalysts, the catalytic activity was increased by decreasing the Pt particle size. [26,29] Palladium supported on carbon powder (Pd/C) and palladium in the forms of Pd and PdÀC thin films synthesized by pulsed laser deposition (PLD) were also employed to study the hydrogen generation by the catalytic hydrolysis of an alkaline NaBH 4 solution.…”

Liquid‐Phase Chemical Hydrogen Storage: Catalytic Hydrogen Generation under Ambient Conditions

“…[11] In the absence of an alkaline solution, NaBH 4 spontaneously reacts with water. [23] The hydrolysis of NaBH 4 can effectively liberate hydrogen at room temperature in the presence of a catalyst via the following reaction [Equation (1)]: [10,12,22,[24][25][26] …”

“…It is reported that 4 equivalents of hydrogen can be completely generated in 16 min in the presence of 1.5 wt % Pt-LiCoO 2 , one of the most active catalysts for this reaction (molar ratio: Pt/NaBH 4 = 0.0002). [26] For Pt-based catalysts, the catalytic activity was increased by decreasing the Pt particle size. [26,29] Palladium supported on carbon powder (Pd/C) and palladium in the forms of Pd and PdÀC thin films synthesized by pulsed laser deposition (PLD) were also employed to study the hydrogen generation by the catalytic hydrolysis of an alkaline NaBH 4 solution.…”

Liquid‐Phase Chemical Hydrogen Storage: Catalytic Hydrogen Generation under Ambient Conditions

“…Some precious metals had shown excellent catalytic activities in the hydrolysis of NaBH 4 solution to produce pure hydrogen [2][3][4]. It is obvious that this kind of catalysts is expensive.…”

Cobalt boride catalysts for hydrogen generation from alkaline NaBH4 solution

“…18 In the last years, significant advances were made and prototypes and commercial products emerged. 19−21 The reaction today has a high technological readiness level (TRL); it is between TRL7, i.e.…”

Sodium borohydride for the near-future energy: a ''rough diamond'' for Turkey