Chen Z,Li J.Defect enhanced CoP/reduced graphene oxide electrocatalytic hydrogen production with Pt-like activity.Appl Catal B Environ2020;265:118576

Shi Y,Li J,Zhi J.Onion-liked carbon-embedded graphitic carbon nitride for enhanced photocatalytic hydrogen evolution and dye degradation.Appl Catal B Environ2022;308:121216

Bie C,Yu J.Challenges for photocatalytic overall water splitting.Chem2022;8:1567-74

Dingenen F.Tapping hydrogen fuel from the ocean: a review on photocatalytic, photoelectrochemical and electrolytic splitting of seawater.Renew Sustain Energy Rev2021;142:110866

Su H,Li S,Zou R.Defect-engineered two-dimensional transition metal dichalcogenides towards electrocatalytic hydrogen evolution reaction.Carbon Energy2023;5:e296

Du Y,Li X.High-efficient piezocatalytic hydrogen evolution by centrosymmetric Bi₂Fe₄O₉ nanoplates.Nano Energy2022;104:107919

Dai B,Yu Y.Construction of infrared-light-responsive photoinduced carriers driver for enhanced photocatalytic hydrogen evolution.Adv Mater2020;32:1906361

Zhou P,Ma Y.Solar-to-hydrogen efficiency of more than 9% in photocatalytic water splitting.Nature2023;613:66-70

Teng J,Wei Z.Coupling photocatalytic hydrogen production with key oxidation reactions.Angew Chem Int Ed2024;63:e202416039

Djellabi R,Conte F,Bianchi CL.A review of advances in multifunctional XTiO₃ perovskite-type oxides as piezo-photocatalysts for environmental remediation and energy production.J Hazard Mater2022;421:126792

Zhang D,Bowen CR.Recent advances in pyroelectric materials and applications.Small2021;17:2103960

Kim J,Baskaran S.Rhenium redefined as electrocatalyst: hydrogen evolution efficiency boost via Pt and Ni doping.Appl Catal B Environ Energy2024;347:123791

Aziz ST,Kumar A,Pal M.Transition metal phosphides as cardinal electrocatalytic materials for alkaline hydrogen production.Cell Rep Phys Sci2023;4:101747

Bai H,Ma Q.Atom doping engineering of transition metal phosphides for hydrogen evolution reactions.Electrochem Energy Rev2022;5:24

Zhang L,Wang Z.2D MoSe₂/CoP intercalated nanosheets for efficient electrocatalytic hydrogen production.Int J Hydrogen Energy2020;45:19246-56

Saha A,Srivastava DN.Exfoliated colloidal MoS₂ nanosheet with predominantly 1T phase for electrocatalytic hydrogen production.Int J Hydrogen Energy2020;45:18645-56

Zhang M,Cui L.A phosphorus modified mesoporous AuRh film as an efficient bifunctional electrocatalyst for urea-assisted energy-saving hydrogen production.J Mater Chem A2022;10:3086-92

Zhang Z,Zhou Y.Engineering ultrafine PtIr alloy nanoparticles into porous nanobowls via a reactive template-engaged assembly strategy for high-performance electrocatalytic hydrogen production.J Mater Chem A2024;12:10148-56

Chung W,Mohamed MG.Recent advances in metal/covalent organic frameworks based materials: their synthesis, structure design and potential applications for hydrogen production.Coord Chem Rev2023;483:215066

Wang CP,Cui L,Bu XH.2D metal-organic frameworks as competent electrocatalysts for water splitting.Small2023;19:2207342

Zhang L,Xu G,Yang L.Facile synthesis of Co_xFe_1-xP microcubes derived from metal-organic frameworks for efficient oxygen evolution reaction.J Colloid Interface Sci2019;554:202-9

Wang Y.Effect of controlled oxygen vacancy on H₂-production through the piezocatalysis and piezophototronics of ferroelectric R3C ZnSnO₃ nanowires.Adv Funct Mater2020;30:1907619

Kuru T,Aslan E,Hatay Patir I.Photo-enhanced piezocatalytic hydrogen evolution using in situ silver piezodeposited scheelite-type BaMoO₄ and BaWO₄.J Mater Chem A2024;12:1764-71

Wang S,Han J.Interfacial self-assembly-induced lattice distortion in Ti₃C₂ for enhanced piezocatalytic activity.ACS Appl Mater Interfaces2023:15:55129-38.

Shi W,Li M,Tang Y.N-doped carbon dots/CdS hybrid photocatalyst that responds to visible/near-infrared light irradiation for enhanced photocatalytic hydrogen production.Sep Purif Technol2019;212:142-9

Zhang M,Ma K,Li C.Pyroelectric effect in CdS nanorods decorated with a molecular Co-catalyst for hydrogen evolution.Nano Energy2020;73:104810

Zhang Y,Marken F.Pyro-electrolytic water splitting for hydrogen generation.Nano Energy2019;58:183-91

You H,Fan Y.Accelerated pyro-catalytic hydrogen production enabled by plasmonic local heating of Au on pyroelectric BaTiO₃ nanoparticles.Nat Commun2022;13:6144 PMCID:PMC9576696

Shi W,Lu J.Construction of ZrC@ZnIn₂S₄ core-shell heterostructures for boosted near-infrared-light driven photothermal-assisted photocatalytic H₂ evolution.Chem Eng J2023;474:145690

Chen M,Ma K.Efficient photocatalytic hydrogen production over copper-molybdate coupled with Meso-TiO₂ under low concentration of sacrificial agent.Int J Hydrogen Energy2024;59:1042-53

Yang L,Wang G.Construction of Tri-functional HOFs material for efficient selective adsorption and photodegradation of bisphenol a and hydrogen production.Adv Funct Mater2023;33:2300954

Wang J,Han P.Enhanced photocatalytic hydrogen production activity driven by TiO₂/(MoP/CdS): insights from powder particles to thin films.Langmuir2024;40:21161-70

Huang G,Lv C.Hierarchical red phosphorus incorporated TiO₂ hollow sphere heterojunctions toward superior photocatalytic hydrogen production.J Mater Sci Technol2022;108:18-25

Zheng H,Liu J,Yan K.Recent advancements in the use of novel piezoelectric materials for piezocatalytic and piezo-photocatalytic applications.Appl Catal B Environ2024;341:123335

Feng X,Zhou J.Heterostructured core-shell CoS_1.097@ZnIn₂S₄ nanosheets for enhanced photocatalytic hydrogen evolution under visible light.Chem Eng J2023;457:141192

Zhai B,Gao G.A crystalline carbon nitride based near-infrared active photocatalyst.Adv Funct Mater2022;32:2207375

Wang C,Wang Y,Leung MKH.Defects of metal halide perovskites in photocatalytic energy conversion: friend or foe?.Adv Sci2024;11:2402471

Lu P,Liu Y.Heterostructure with tightly-bound interface between In₂O₃ hollow fiber and ZnIn₂S₄ nanosheet toward efficient visible light driven hydrogen evolution.Appl Catal B Environ2024;345:123697

Wenson G,Tsai H,Singh R.The degradation and recovery behavior of mixed-cation perovskite solar cells in moisture and a gas mixture environment.J Mater Chem A2022;10:13519-26

Katsaiti M,Dracopoulos V,Lianos P.Solar charging of a Zn-air battery.J Power Sources2023;555:232384

Zhou L,Fang Z.Boosting of water splitting using the chemical energy simultaneously harvested from light, kinetic energy and electrical energy using N doped 4H-SiC nanohole arrays.Nano Energy2022;104:107876

Liu B,Zhang G.Tandem cells for unbiased photoelectrochemical water splitting.Chem Soc Rev2023;52:4644-71

Yao T,Han H,Li C.Photoelectrocatalytic materials for solar water splitting.Adv Energy Mater2018;8:1800210

Murugan C,Velmurugan R,Murugan P.Investigating the interfacial charge transfer between electrodeposited BiVO₄ and pulsed laser-deposited Co₃O₄ p-n junction photoanode in photoelectrocatalytic water splitting.Chem Eng J2024;483:149104

Wang G,Ye KH.Dual hole transport layers heterojunction and band alignment engineered Mo:BiVO₄ photoanodes for efficient water splitting.Small2024;20:2403600

Zhang F,Qian Y.Multistage charge redistribution constructing heterostructured WO₃@RuSe₂ on Si for enhanced photoelectrochemical hydrogen evolution.Chem Eng J2022;446:137462

Bashiri R,Mohamed NM.Hierarchically SrTiO₃@TiO₂@Fe₂O₃ nanorod heterostructures for enhanced photoelectrochemical water splitting.Int J Hydrogen Energy2021;46:24607-19

Kim YK,Yeop J.Hetero-tandem organic solar cells drive water electrolysis with a solar-to-hydrogen conversion efficiency up to 10%.Appl Catal B Environ2022;309:121237

Seo S,Kim Y.A long-term stable organic semiconductor photocathode-based photoelectrochemical module system for hydrogen production.J Mater Chem A2022;10:13247-53

Gong L,Gu G.Power management and system optimization for high efficiency self-powered electrolytic hydrogen and formic acid production.Nano Energy2023;107:108124

Ghosh K,Konečný M,Michalička J.Nanoarchitectonics of triboelectric nanogenerator for conversion of abundant mechanical energy to green hydrogen.Adv Energy Mater2023;13:2203476

Zhang W,Dai S.Wave energy harvesting based on multilayer beads integrated spherical TENG with switch triggered instant discharging for self-powered hydrogen generation.Nano Energy2023;111:108432

Wang X,Singh S.Topological semimetals with intrinsic chirality as spin-controlling electrocatalysts for the oxygen evolution reaction.Nat Energy2025;10:101-9

Sun Q,Nagao A,Wang S.Corrigendum to “hydrogen-prompted heterogeneous development of dislocation structure in Ni” [Acta Materialia 246 (2023) 118660].Acta Mater2024;270:119840

Pei A,Zhu L.Methanol-enhanced low-cell-voltage hydrogen generation at industrial-grade current density by triadic active sites of Pt₁-Pd_n-(Ni,Co)(OH)_x.J Am Chem Soc2025;147:3185-94

Wang S,Cai Y.Interfacial polarization triggered by covalent-bonded MXene and black phosphorus for enhanced electrochemical nitrate to ammonia Conversion.Adv Energy Mater2023;13:2301136

Thakur D,Singh Chauhan V,Vaish R.2D transition metal dichalcogenides: synthesis methods and their pivotal role in photo, piezo, and photo-piezocatalytic processes.Sep Purif Technol2024;337:126462

Han Q,Wang Y.Enhanced photocatalytic hydrogen evolution by piezoelectric effects based on MoSe₂/Se-decorated CdS nanowire edge-on heterostructure.J Colloid Interface Sci2023;630:460-72

Wang W,Li X.Boosting efficiency in piezo-photocatalysis process using poled Ba_0.7Sr_0.3TiO₃ nanorod arrays for pollutant degradation and hydrogen production.ACS Appl Mater Interfaces2024;16:20497-509

Tu S,Huang H.Enhanced charge carrier separation by bi-piezoelectric effects based on pine needle-like BaTiO₃/ZnO continuous nanofibers.J Mater Chem A2022;10:13544-55

Jin X,Dong L.Enhancement and inhibition of photocatalytic hydrogen production by fine piezoelectric potential tuning over piezo-photocatalyst.Nano Energy2024;123:109341

Yang Z,Fang M,Pan S.Promoting the electron/hole co-extraction using piezotronic effect in Pt/ZnIn₂S₄/BaTiO₃ heterojunctions for photocatalytic synergistic hydrogen evolution and HMF oxidation.Mater Today Phys2023;36:101158

Guo M,Li W.Highly-efficient photocatalytic hydrogen evolution enabled by piezotronic effects in SrTiO₃/BaTiO₃ nanofiber heterojunctions.Nano Energy2024;127:109745

Wei H,Cao F.Constructing magnetically propelled piezoelectric and pyroelectric bifunctional micromotors to boost the photocatalytic H₂ production involving biomass reforming.Nano Energy2024;129:110064

Zhang S,Liu Z,Guo Z.Novel strategy for efficient water splitting through pyro-electric and pyro-photo-electric catalysis of BaTiO₃ by using thermal resource and solar energy.Appl Catal B Environ2021;284:119686

Zhang S,Chen D,Ruan M.Promising pyro-photo-electric catalysis in NaNbO₃ via integrating solar and cold-hot alternation energy in pyroelectric-assisted photoelectrochemical system.Nano Energy2021;79:105485