The exploration of natural agricultural products for the efficient hydrolysis of sodium borohydride (NaBH 4 ) is crucial for environmentally benign hydrogen (H 2 ) generation in water and expanding the industrial use of crop-derived materials. However, the direct use of natural materials to enhance H 2 production has been rarely investigated. This study investigates H 2 production using a commercial lemon juice and freshly squeezed citrus juices from lemons, oranges, limes, and mandarins. It is found that the amount of H 2 is close to theoretical maximum value when the molar ratio of carboxyl groups [COOH] to [NaBH 4 ] is 1 or higher. Since it is known that many citrus fruits contain citric acid as a key chemical, a commercial lemon juice is studied as a catalysis for NaBH 4 hydrolysis. An aqueous solution containing 50 vol% juice and 10 mmol NaBH 4 produces 930.3 ± 23.4 mL of H 2 for 60 min. The amount enables a 200 mL bottle of lemon juice to theoretically generate 18.6 L of H 2 . Additionally, freshly squeezed juices from the four citrus fruits (with or without pulp) also catalyze the reaction. Particularly, lime juice with pulp produced 601.0 ± 8.2 mL of H 2 for 60 min when the aqueous suspension contained 50 wt% juice and 6.5 mmol NaBH 4 , corresponding to an estimated H 2 yield of ∼1.574 L per lime fruit. Overall, these findings demonstrate that citrus fruits can act as natural, effective catalysts for NaBH₄ hydrolysis, offering a promising dual benefit for sustainable energy production and agricultural resource utilization. • Citric acid catalyzes sodium borohydride hydrolysis to produce hydrogen (H 2 ). • Many citrus fruits contain citric acid as a key chemical. • Commercial lemon juice catalyzes the hydrolysis to reach theoretical values of H 2 . • Squeezed citrus fruit juices also catalyze the hydrolysis to produce H 2 . • Citrus fruits can provide a solution for eco-friendly production of H 2 .