Sherbo, R. S. et al. Accurate coulometric quantification of hydrogen absorption in palladium nanoparticles and thin films. Chem. Mater. 30, 3963–3970 (2018).

Sherbo, R. S., Delima, R. S., Chiykowski, V. A., MacLeod, B. P. & Berlinguette, C. P. Complete electron economy by pairing electrolysis with hydrogenation. Nat. Catal. 1, 501–507 (2018).

Murray, J. B. et al. Apparatus for combined nanoscale gravimetric, stress, and thermal measurements. Rev. Sci. Instrum. 89, 085106 (2018).

Palm, K. J., Murray, J. B., Narayan, T. C. & Munday, J. N. Dynamic optical properties of metal hydrides. ACS Photonics 5, 4677–4686 (2018).


Benck, J. D., Rettenwander, D., Jackson, A., Young, D. & Chiang, Y.-M. Apparatus for operando x-ray diffraction of fuel electrodes in high temperature solid oxide electrochemical cells. Rev. Sci. Instrum. 90, 023910 (2019).

Johnson, N. J. J. et al. Facets and vertices regulate hydrogen uptake and release in palladium nanocrystals. Nat. Mater. 18, 454–458 (2019).

Fork, D. K., Munday, J. N., Narayan, T. & Murray, J. B. Target structure for enhanced electron screening. US Patent 10264661B2 (2019).

MacLeod, B. P., Fork, D. K., Lam, B. & Berlinguette, C. P. Calorimetry under non-ideal conditions using system identification. J. Therm. Anal. Calorim. 138, 3139–3157 (2019).

Benck, J. D., Jackson, A., Young, D., Rettenwander, D. & Chiang, Y.-M. Producing high concentrations of hydrogen in palladium via electrochemical insertion from aqueous and solid electrolytes. Chem. Mater. 31, 4234–4245 (2019).

Berlinguette, Curtis P., Yet-Ming Chiang, Jeremy N. Munday, Thomas Schenkel, David K. Fork, Ross Koningstein, and Matthew D. Trevithick. Revisiting the cold case of cold fusion. Nature 570, 45–51 (2019).

Delima, R. S., Sherbo, R. S., Dvorak, D. J., Kurimoto, A. & Berlinguette, C. P. Supported palladium membrane reactor architecture for electrocatalytic hydrogenation. J. Mater. Chem. A 7, 26586–26595 (2019).

Palm, K. J., Murray, J. B., McClure, J. P., Leite, M. S. & Munday, J. N. In situ optical and stress characterization of alloyed PdxAu1–x hydrides. ACS Appl. Mater. Interfaces 11, 45057–45067 (2019).

Johnson, N. J. J., Lam, B., Sherbo, R. S., Fork, D. K. & Berlinguette, C. P. Ligands affect hydrogen absorption and desorption by palladium nanoparticles. Chem. Mater. 31, 8679–8684 (2019).

Schenkel, T. et al. Investigation of light ion fusion reactions with plasma discharges. J. Appl. Phys. 126, 203302 (2019).


Fork, D. K., Munday, J. N., Narayan, T. & Murray, J. B. Enhanced electron screening through plasmon oscillations. US Patent 10566094B2 (2020).

Jansonius, R. P. et al. Strain influences the hydrogen evolution activity and absorption capacity of palladium. Angew. Chem. Int. Ed Engl. 59, 12192–12198 (2020).

Jansonius, R. P. et al. Hydrogenation without H2 using a palladium membrane flow cell. Cell Rep. Phys. Sci. 1, 100105 (2020).

Kurimoto, A., Sherbo, R. S., Cao, Y., Loo, N. W. X. & Berlinguette, C. P. Electrolytic deuteration of unsaturated bonds without using D2. Nat. Catal. 3, 719–726 (2020).

Berlinguette, C. P. From cold fusion to pharmaceuticals. Nature Chemistry, ‘Behind the Paper’ (2020).

Gong, T. et al. Emergent opportunities with metallic alloys: From material design to optical devices. Adv. Opt. Mater. 8, 2001082 (2020).

Moreno-Gonzalez, M. et al. Sulfuric acid electrolyte impacts palladium chemistry at reductive potentials. Chem. Mater. 32, 9098–9106 (2020).

Reihani, A., Lim, J. W., Fork, D. K., Meyhofer, E. & Reddy, P. Microwatt-resolution calorimeter for studying the reaction thermodynamics of nanomaterials at high temperature and pressure. ACS Sens 6, 387–398 (2020).


Huang, A. et al. Electrolysis can be used to resolve hydrogenation pathways at palladium surfaces in a membrane reactor. JACS Au 1, 336–343 (2021).

Young, D., Jackson, A., Fork, D., Sadat, S., Rettenwander, D., Benck, J. D., & Chiang, Y.-M. An operando calorimeter for high temperature electrochemical cells. J. Phys.: Energy, 3[3] (2021).

Kurimoto, A., et al. Physical separation of H2 activation from hydrogenation chemistry reveals the specific role of secondary metal catalysts. Angew. Chem. Int. Ed. 60, 11937–11942 (2021).

Schenkel, T., et al. Apparatus and method for sourcing fusion reaction products. US Patent Application 20210151206 (2021).