[1] KRAIWATTANAWONG K. A review on the development of a porous carbon-based as modeling materials for electric double layer capacitors[J]. Arabian Journal of Chemistry(2022).

[2] MEMETOVA A, TYAGI I, KARRI R R et al. Porous carbon- based material as a sustainable alternative for the storage of natural gas (methane) and biogas (biomethane): a review[J]. Chemical Engineering Journal(2022).

[3] ZHANG X, HAN R, LIU Y et al. Porous and graphitic structure optimization of biomass-based carbon materials from 0D to 3D for supercapacitors: a review[J]. Chemical Engineering Journal(2023).

[4] YANG D, SUN T, TIAN H et al. Iron-nitrogen-codoped mesoporous carbon: facile synthesis and catalytic performance of oxygen reduction reaction[J]. Journal of Inorganic Materials(2023).

[5] ZHAO R, TANG S. Research progress of ceramic matrix composites prepared by improved reactive melt infiltration through ceramization of porous carbon matrix[J]. Journal of Inorganic Materials(2024).

[6] WANG Y, CHEN J, IHARA H et al. Preparation of porous carbon nanomaterials and their application in sample preparation: a review[J]. TrAC Trends in Analytical Chemistry(2021).

[7] CHENG X, TANG C, YAN C et al. Preparation of porous carbon spheres and their application as anode materials for lithium-ion batteries: a review[J]. Materials Today Nano(2023).

[8] XIE L, JIN Z, DAI Z et al. Porous carbons synthesized by templating approach from fluid precursors and their applications in environment and energy storage: a review[J]. Carbon(2020).

[9] YAN B, ZHENG J, WANG F et al. Review on porous carbon materials engineered by ZnO templates: design, synthesis and capacitance performance[J]. Materials & Design(2021).

[10] XU F, WU D, FU R et al. Design and preparation of porous carbons from conjugated polymer precursors[J]. Materials Today(2017).

[11] CHEN A, WANG Y, YU Y et al. Nitrogen-doped hollow carbon spheres for supercapacitors[J]. Journal of Materials Science(2017).

[12] BHATTACHARJYA D, KIM M S, BAE T S et al. High performance supercapacitor prepared from hollow mesoporous carbon capsules with hierarchical nanoarchitecture[J]. Journal of Power Sources(2013).

[13] ZHOU M, LU Y, CHEN H et al. Excellent durable supercapacitor performance of hierarchical porous carbon spheres with macro hollow cores[J]. Journal of Energy Storage(2018).

[14] HE Y, ZHUANG X, LEI C et al. Porous carbon nanosheets: synthetic strategies and electrochemical energy related applications[J]. Nano Today(2019).

[15] CHEN W, WANG X, FEIZBAKHSHAN M et al. Preparation of lignin-based porous carbon with hierarchical oxygen-enriched structure for high-performance supercapacitors[J]. Journal of Colloid and Interface Science(2019).

[16] WANG J, YANG Q, YANG W et al. Adsorptive catalysis of hierarchical porous heteroatom-doped biomass: from recovered heavy metal to efficient pollutant decontamination[J]. Journal of Materials Chemistry A(2018).

[17] LEE B M, CHOI B S, LEE J Y et al. Fabrication of porous carbon beads from polyacrylonitrile as electrode materials for electric double-layer capacitors[J]. Carbon Letters(2021).

[18] XU S, LI J, QIAO G et al. Pore structure control of mesoporous carbon monoliths derived from mixtures of phenolic resin and ethylene glycol[J]. Carbon, 2103(2009).

[19] NAKANISHI K, AMATANI T, YANO S et al. Multiscale templating of siloxane gels via polymerization-induced phase separation[J]. Chemistry of Materials(2008).

[20] LUO K. The morphology and dynamics of polymerization-induced phase separation[J]. European Polymer Journal(2006).

[21] NIKFARJAM N, COMAN P T, FREE C et al. Advancing ionic conductivity in solid electrolytes: insights from polymerization- induced phase separation and microstructural optimization[J]. Journal of Energy Storage(2024).

[22] MANDSBERG N K, ASLAN F, DONG Z et al. 3D printing of reactive macroporous polymers via thiol-ene chemistry and polymerization-induced phase separation[J]. Chemical Communications(2024).

[23] SUN H, TAN Y, TANG M et al. Phenolic resin-based nanoflower porous carbon synthesized by self-assembly of MgO hydrolysis for boosting supercapacitor performance[J]. Applied Surface Science(2024).

[24] YUAN Z, ZHANG Y, ZHOU Y et al. Preparation and characterization of porous carbons obtained from mixtures of furfuryl alcohol and phenol-formaldehyde resin[J]. Materials Chemistry and Physics(2014).

[25] HAN X, YANG W, YIN C et al. Carbonized derivatives derived from the complex of Fe/Ni bimetallic MOFs and phenolic resin for flexible piezoresistive sensors in motion capture and health monitoring[J]. Applied Surface Science(2025).

[26] YU Z L, XIN S, YOU Y et al. Ion-catalyzed synthesis of microporous hard carbon embedded with expanded nanographite for enhanced lithium/sodium storage[J]. Journal of the American Chemical Society(2016).

[27] PIZZI A. Phenolic and tannin-based adhesive resins by reactions of coordinated metal ligands. II. Tannin adhesive preparation, characteristics, and application[J]. Journal of Applied Polymer Science(1979).

[28] YU Z, LI G, FECHLER N et al. Polymerization under hypersaline conditions: a robust route to phenolic polymer-derived carbon aerogels[J]. Angewandte Chemie International Edition(2016).

[29] WU X, ZHU Y, PEI B et al. Effect of FeCl₂ on the pore structure of porous carbon obtained from phenol formaldehyde resin and ethylene glycol[J]. Materials Letters(2018).

[30] YIN C, HE X, YANG X et al. Enhanced electrocatalytic removal of bisphenol a by introducing Co/N into precursor formed from phenolic resin waste[J]. Chemosphere(2024).

[31] GU J F, CHEN C, CHAEMCHUEN S et al. Controlled incorporation of Zn into nitrogen-doped porous carbon boosts the alcohol dehydrogenation to carboxylic acids[J]. Materials Today Chemistry(2024).

[32] BRUSKO V, KHANNANOV A, RAKHMATULLIN A et al. Unraveling the infrared spectrum of graphene oxide[J]. Carbon(2024).

[33] WEISS S, SEIDL R, KESSLER W et al. Multivariate curve resolution (MCR) of real-time infrared spectra for analyzing the curing behavior of solid MF thermosetting resin[J]. International Journal of Adhesion and Adhesives(2021).

[34] SAHA A, KURREY R, DEB M K et al. Resin immobilized gold nanocomposites assisted surface enhanced infrared absorption (SEIRA) spectroscopy for improved surface assimilation of methylene blue from aqueous solution[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy(2021).

[35] MA Z, MANG C, ZHAO H et al. Comparison of electromagnetism behavior of different content cobalt-zinc ferrite loaded with graphene[J]. Journal of Inorganic Materials(2019).

[36] HAMDAN M, HALAWY L, HIJAZI A et al. Highly-stable Ni-Zn catalyst on USY zeolite support for low temperature methane pyrolysis[J]. International Journal of Hydrogen Energy(2024).

[37] FARID M A A, ZHENG A L T, TSUBOTA T et al. Catalytic graphitization of biomass-derived ethanosolv lignin using Fe, Co, Ni, and Zn: microstructural and chemical characterization[J]. Journal of Analytical and Applied Pyrolysis(2023).