| # | Document title | Authors | Year | Source | Cited by |
| 1 | Desalination and Nanofiltration through Functionalized Laminar MoS2 Membranes | Hirunpinyopas W., Prestat E., Worrall S., Haigh S., Dryfe R., Bissett M. | 2017 | ACS Nano,
11(11), pp. 11082-11090 | 334 |
| 2 | Liquid Phase Exfoliation of 2D Materials and Its Electrochemical Applications in the Data-Driven Future | Chavalekvirat P., Chavalekvirat P., Hirunpinyopas W., Deshsorn K., Deshsorn K., Jitapunkul K., Iamprasertkun P., Iamprasertkun P. | 2023 | Precision Chemistry | 85 |
| 3 | Capacitance of Basal Plane and Edge-Oriented Highly Ordered Pyrolytic Graphite: Specific Ion Effects | Iamprasertkun P., Hirunpinyopas W., Keerthi A., Wang B., Radha B., Bissett M.A., Dryfe R.A.W. | 2019 | Journal of Physical Chemistry Letters,
10(3), pp. 617-623 | 62 |
| 4 | Tunable charge/size selective ion sieving with ultrahigh water permeance through laminar graphene membranes | Hirunpinyopas W., Iamprasertkun P., Bissett M., Dryfe R. | 2020 | Carbon,
156, pp. 119-129 | 58 |
| 5 | Controlling the flake size of bifunctional 2D WSe2nanosheets as flexible binders and supercapacitor materials | Iamprasertkun P., Iamprasertkun P., Hirunpinyopas W., Deerattrakul V., Sawangphruk M., Nualchimplee C. | 2021 | Nanoscale Advances,
3(3), pp. 653-660 | 54 |
| 6 | Well-Defined Boron/Nitrogen-Doped Polycyclic Aromatic Hydrocarbons Are Active Electrocatalysts for the Oxygen Reduction Reaction | Kahan R., Hirunpinyopas W., Cid J., Ingleson M., Dryfe R. | 2019 | Chemistry of Materials,
31(6), pp. 1891-1898 | 46 |
| 7 | Electrochemical intercalation of MoO 3 -MoS 2 composite electrodes: Charge storage mechanism of non-hydrated cations | Iamprasertkun P., Hirunpinyopas W., Tripathi A., Bissett M., Dryfe R. | 2019 | Electrochimica Acta,
307, pp. 176-187 | 42 |
| 8 | Hydrogen Evolution at LiquidjLiquid Interfaces Catalyzed by 2D Materials | Hirunpinyopas W., Rodgers A.N.J., Worrall S.D., Bissett M.A., Dryfe R.A.W. | 2017 | ChemNanoMat,
3(6), pp. 428-435 | 32 |
| 9 | Black phosphorus with near-superhydrophobic properties and long-term stability in aqueous media | Matthews P.D., Matthews P.D., Hirunpinyopas W., Lewis E.A., Brent J.R., McNaughter P.D., Zeng N., Thomas A.G., O'Brien P., Derby B., Bissett M.A., Haigh S.J., Dryfe R.A.W., Lewis D.J. | 2018 | Chemical Communications,
54(31), pp. 3831-3834 | 31 |
| 10 | Facile fabrication of metal-organic framework HKUST-1-based rewritable data storage devices | Worrall S.D., Bissett M.A., Hirunpinyopas W., Attfield M.P., Dryfe R.A.W. | 2016 | Journal of Materials Chemistry C,
4(37), pp. 8687-8695 | 29 |
| 11 | Potential dependent ionic sieving through functionalized laminar MoS2 membranes | Hirunpinyopas W., Prestat E., Prestat E., Iamprasertkun P., Bissett M.A., Dryfe R.A.W. | 2020 | 2D Materials,
7(1), 015030 | 27 |
| 12 | Role of Transition Metal Dichalcogenides as a Catalyst Support for Decorating Gold Nanoparticles for Enhanced Hydrogen Evolution Reaction | Saeloo B., Saisopa T., Chavalekvirat P., Iamprasertkun P., Jitapunkul K., Sirisaksoontorn W., Lee T.R., Hirunpinyopas W. | 2024 | Inorganic Chemistry,
63(40), pp. 18750-18762 | 19 |
| 13 | Insights into binding mechanisms of size-selected graphene binders for flexible and conductive porous carbon electrodes | Hirunpinyopas W., Iamprasertkun P., Fevre L.W.L., Panomsuwan G., Sirisaksoontorn W., Dryfe R.A.W., Songsasen A. | 2022 | Electrochimica Acta,
403, 139696 | 18 |
| 14 | Revisiting the properties of lithium chloride as “water-in-salt” electrolyte for pouch cell electrochemical capacitors | Bunpheng A., Sakulaue P., Hirunpinyopas W., Nueangnoraj K., Luanwuthi S., Iamprasertkun P. | 2023 | Journal of Electroanalytical Chemistry,
944, 117645 | 17 |
| 15 | Monolayer Penta-BeAs2: A Promising 2D Materials for Toxic Gas Sensor with High Selectivity | Sringamprom S., Thanasarnsurapong T., Watcharatharapong T., Hirunpinyopas W., Sirisaksoontorn W., Prasongkit J., Boonchun A. | 2024 | ACS Applied Materials and Interfaces | 16 |
| 16 | Size-Dependent Graphene Support for Decorating Gold Nanoparticles as a Catalyst for Hydrogen Evolution Reaction with Machine Learning-Assisted Prediction | Saeloo B., Jitapunkul K., Jitapunkul K., Iamprasertkun P., Iamprasertkun P., Panomsuwan G., Sirisaksoontorn W., Sooknoi T., Hirunpinyopas W. | 2023 | ACS Applied Materials and Interfaces | 15 |
| 17 | Auto-oxidation of exfoliated MoS2in N -methyl-2-pyrrolidone: From 2D nanosheets to 3D nanorods | Nualchimplee C., Jitapunkul K., Deerattrakul V., Thaweechai T., Sirisaksoontorn W., Hirunpinyopas W., Iamprasertkun P., Iamprasertkun P. | 2022 | New Journal of Chemistry,
46(2), pp. 747-755 | 15 |
| 18 | A structural study of size selected WSe2 nanoflakes prepared via liquid phase exfoliation: X-ray absorption to electrochemical application | Saisopa T., Bunpheng A., Wechprasit T., Kidkhunthod P., Songsiriritthigul P., Jiamprasertboon A., Bootchanont A., Sailuam W., Rattanachai Y., Nualchimplee C., Hirunpinyopas W., Iamprasertkun P. | 2023 | Radiation Physics and Chemistry,
206, 110788 | 14 |
| 19 | Upcycling electrode materials from spent single-use zinc‑carbon/alkaline batteries into rechargeable lithium-ion battery application | Pattaweepaiboon S., Hirunpinyopas W., Iamprasertkun P., Iamprasertkun P., Pimphor K., Roddecha S., Dirayanti D., Boonchun A., Sirisaksoontorn W. | 2024 | Journal of Energy Storage,
76, 109755 | 14 |
| 20 | The electrochemistry of size dependent graphenevialiquid phase exfoliation: capacitance and ionic transport | Deerattrakul V., Deerattrakul V., Hirunpinyopas W., Pisitpipathsin N., Saisopa T., Sawangphruk M., Nualchimplee C., Iamprasertkun P. | 2021 | Physical Chemistry Chemical Physics,
23(20), pp. 11616-11623 | 13 |
| 21 | A review: Ion transport of two-dimensional materials in novel technologies from macro to nanoscopic perspectives | Unsuree N., Phanphak S., Prajongtat P., Bunpheng A., Jitapunkul K., Kongputhon P., Srinoi P., Iamprasertkun P., Iamprasertkun P., Hirunpinyopas W. | 2021 | Energies,
14(18), 5819 | 13 |
| 22 | Ultrahigh stable laminar graphene membranes for effective ionic and molecular nanofiltration with a machine learning-assisted study | Paechotrattanakul P., Jitapunkul K., Iamprasertkun P., Srinoi P., Sirisaksoontorn W., Hirunpinyopas W. | 2023 | Nanoscale | 12 |
| 23 | The vertically aligned graphene/graphite/PPy composites electrode and its PPy thickness-dependent electrochemical performance | He D., Tang F., Jiang H., Hirunpinyopas W., Cetinkaya T., Li Z. | 2021 | Electrochimica Acta,
399, 139426 | 11 |
| 24 | The structure analysis and chemical properties probing during recycling processes of transition metal dichalcogenides exfoliation | Saisopa T., Jitapunkul K., Bunpheng A., Nakajima H., Supruangnet R., Busayaporn W., Sukprom T., Sukprom T., Hirunpinyopas W., Seubsai A., Songsiriritthigul P., Iamprasertkun P. | 2023 | Electrochimica Acta,
449, 142171 | 10 |
| 25 | Tuning Surface Energy to Enhance MoS2 Nanosheet Production via Liquid-Phase Exfoliation: Understanding the Electrochemical Adsorption of Cesium Chloride | Chavalekvirat P., Nakkiew P., Kunaneksin T., Hirunpinyopas W., Busayaporn W., Iamprasertkun P. | 2023 | Inorganic Chemistry | 10 |
| 26 | A comprehensive study of affordable “water-in-salt” electrolytes and their properties | Bunpheng A., Bunpheng A., Chavalekvirat P., Chavalekvirat P., Tangthana-umrung K., Deerattrakul V., Deerattrakul V., Nueangnoraj K., Hirunpinyopas W., Iamprasertkun P., Iamprasertkun P. | 2024 | Green Chemical Engineering | 9 |
| 27 | Effect of carbon black supports on the hydrogen evolution reaction activity of Pd nanoparticle electrocatalysts synthesized via solution plasma sputtering | Chantaramethakul J., Hussakan C., Yenmankhong Y., Chandeang P., Techapiesancharoenkij R., Hirunpinyopas W., Kasmui N., Kurniawan C., Panomsuwan G. | 2024 | RSC Advances,
14(43), pp. 31648-31654 | 8 |
| 28 | Tunable properties of WSe2 nanosheets and nano-dispersion via energy dependent exfoliation | Chavalekvirat P., Saisopa T., Sornnoei N., Hirunpinyopas W., Sirisaksoontorn W., Busayaporn W., Iamprasertkun P. | 2025 | Materials Reports: Energy,
100326 | 8 |
| 29 | Synthesis of Carbon Dots from the Biomass Products for Supercapacitor Applications | Tibodee A., Hirunpinyopas W., Jeamjumnunja K., Sirisaksoontorn W. | 2020 | IOP Conference Series: Materials Science and Engineering,
773(1), 012022 | 7 |
| 30 | Single-Atom to Ultrasmall Au Nanoparticles Anchored on NiFe Layered Double Hydroxide as Catalyst for Oxygen and Hydrogen Evolution Reactions | Pattaweepaiboon S., Samarungkasut P., Iamprasertkun P., Iamprasertkun P., Arkasalerks P., Nueangnoraj K., Boonchun A., Pumsantier A., Hirunpinyopas W., Sirisaksoontorn W. | 2024 | ACS Applied Nano Materials | 6 |
| 31 | Exploring how base model combination affects the results of a “stacking” ensemble machine learning model: An applied study on optimization of heteroatom doped carbon data | Deshsorn K., Deshsorn K., Sirisaksoontorn W., Hirunpinyopas W., Iamprasertkun P., Iamprasertkun P. | 2025 | FlatChem,
50, 100827 | 5 |
| 32 | Applications to water transport systems: General discussion | Baaden M., Barboiu M., Borthakur M.P., Chen C.L., Coalson R., Davis J., Freger V., Gong B., Hélix-Nielsen C., Hickey R., Hinds B., Hirunpinyopas W., Horner A., Hou J.L., Hummer G., Iamprasertkun P., Kazushi K., Kumar M., Legrand Y.M., Lokesh M., Mi B., Mitra S., Murail S., Noy A., Nunes S., Pohl P., Song Q., Song W., Tornroth-Horsefield S., Vashisth H. | 2018 | Faraday Discussions,
209, pp. 389-414 | 3 |
| 33 | Sm/N-codoped TiO2 preparation, characterization, and photocatalytic decolourization of Acid Orange 7 and Basic Blue 41 in sunlight | Hirunpinyopas W., Davis S.A., Sirisaksoontorn W., Songsasen A. | 2015 | ScienceAsia,
41(1), pp. 42-48 | 2 |
| 34 | Assessment of electrochemical removal mechanisms of diverse transition metal dichalcogenides for caesium ion removal in wastewater treatment | Boeurn O., Chavalekvirat P., Chanapai P., Saeloo B., Hirunpinyopas W., Iamprasertkul P. | 2024 | 2D Materials,
11(4), 045020 | 2 |
| 35 | The modelling and enhancement of water hydrodynamics: General discussion | Baaden M., Borthakur M.P., Casanova S., Coalson R., Freger V., Gonzalez M., Góra A., Hinds B., Hirunpinyopas W., Hummer G., Kumar M., Lynch C., Murail S., Noy A., Sansom M., Song Q., Vashisth H., Vögele M. | 2018 | Faraday Discussions,
209, pp. 273-285 | 1 |
| 36 | Accelerating Lattice Thermal Conductivity Calculations in MXenes: A Machine Learning Force Field Approach | Thanasarnsurapong T., Jana S.K., Detrattanawichai P., Namunmong W., Hirunpinyopas W., Iamprasertkun P., Iamprasertkun P., Boonchun A. | 2025 | ACS Materials Au | 1 |
| 37 | Nano-engineering from Single Atoms to Gold Nanoclusters Anchored on MoS2Nanosheets for an Efficient Hydrogen Evolution Reaction | Sornnoei N., Jitapunkul K., Chavalekvirat P., Lawtrakul L., Iamprasertkun P., Iamprasertkun P., Sirisaksoontorn W., Sooknoi T., Hirunpinyopas W. | 2025 | ACS Applied Nano Materials,
8(35), pp. 17086-17099 | 1 |
| 38 | Recent advances in MOF-based functional separators for lithium-metal/lithium-sulfur batteries | Zheng X., Fang H., Wan Y., Zhang X., Zhang Y., Hirunpinyopas W., Wu M., Wu M., Wang B. | 2026 | Coordination Chemistry Reviews,
552, 217512 | 0 |
| 39 | The Interplay of Dy Doping and Sulfur Vacancies in MoS2for an Efficient Hydrogen Evolution Reaction | Petcharat N., Kaewmuntree N., Krobkrong N., Hirunpinyopas W., Chavalekvirat P., Chavalekvirat P., Iamprasertkun P., Iamprasertkun P., Thanasarnsurapong T., Boonchun A., Kamonsuangkasem K., Sirisaksoontorn W. | 2026 | ACS Omega,
11(10), pp. 16571-16581 | 0 |
| 40 | Upcycling zinc-carbon batteries for tunable manganese dioxides and zinc electrolytes in rechargeable batteries | Khamprathed S., Yawanangkul P., Hirunpinyopas W., Iamprasertkun P., Iamprasertkun P., Boonchun A., Tuantranont A., Pattaweepaiboon S., Sirisaksoontorn W. | 2026 | Waste Management,
209, 115206 | 0 |
| 41 | Tuning Physicochemical Properties of Boron Nitride-Based Membranes via Scalable One-Step Exfoliation for Ionic and Molecular Nanofiltration | Bunpheng A., Bunpheng A., Saisopa T., Iamprasertkun P., Iamprasertkun P., Seubsai A., Boonchun A., Sirisaksoontorn W., Hirunpinyopas W. | 2025 | ACS Materials Au | 0 |