Publications | Multiscale Materials and Manufacturing Laboratory

[79] S. Qu, L. Wang, S. Zhang, C. Yang, H.Y. Chia, G. Wu, Z. Hu, J. Ding, W. Yan, Y. Zhang, C. H. Chan, W. Chen, Y. Lu, X. Song, Oxide-Dispersion-Enabled Laser Additive Manufacturing of High-Performance Copper with High Resolution, Nature Communications, in revision, 2024.

[78] E. Tekoglu, J.S. Bae, H.A. Kim, K.H. Lim, J. Liu, T.D. Doležal, S.Y. Kim, M.A. Alrizqi, A. Penn, W. Chen, A.J. Hart, J. Kang, C. Oh, J. Park, F. Sun, S. Kim, G. Sim, J. Li, Superior high-temperature mechanical properties and microstructural features of LPBF-printed In625-based metal matrix composites, Materials Today, 80 (2024) 297.

[77] X. Gao, J. Liu, L. Bo, W. Chen, J. Sun, Z. Ning, A. HW Ngan, Y. Huang, Achieving superb mechanical properties in CoCrFeNi high-entropy alloy microfibers via electric current treatment, Acta Materialia, 277 (2024) 120203.

[76] Y. Han, H. Chen, Y. Sun, J. Liu, S. Wei, B. Xie, Z. Zhang, Y. Zhu, M. Li, J. Yang, W. Chen, P. Cao, Y. Yang, Ubiquitous short-range order in multi-principal element alloys, Nature Communications, 15 (2024) 6486.

[75] S. Mooraj, X. Dong, S. Zhang, Y. Zhang, J. Ren, S. Guan, C. Li, R. Naorem, N. Argibay, W. Chen, W. Yan, D. Raabe, Z. Sun, W. Chen, Crack mitigation in additively manufactured AlCrFe₂Ni₂ high-entropy alloys through engineering phase transformation pathway, Communications Materials, 5 (2024) 101.

[74] J. Zeng, Y. Yang, H. Peng, P. Wang, C. Liu, Z. Chen, W. Chen, X. Liu, Y. Wu, Z. Liu, Z. Lu, Additive manufacturing of high entropy shape memory alloy with outstanding properties through multi-remelting in-situ alloying, Additive Manufacturing, 2024, 104253

[73] S. Son, J. Lee, P. Asghari-Rad, R.E. Kim, H. Park, J. Jang, W. Chen, Y. Heo, H.S. Kim, Hierarchically heterogeneous microstructure and mechanical behavior of the multi-materials prepared by powder severe plastic deformation, Materials Research Letters, 11 (2023) 915.

[72] E. Teko?lu, A.D. O’Brien, J. Bae, K. Lim, J. Liu, S. Kavak, Y. Zhang, S. Yeon Kim, D. A?ao?ullar?, W. Chen, A.J. Hart, G. Sim, J. Li, Metal matrix composite with superior ductility at 800° C: 3D printed In718+ ZrB2 by laser powder bed fusion, Composites Part B: Engineering, 268 (2023) 111052.

[71] Y. Liu, J. Ren, J. Liu, Y. Cao, W. Liu, T. Li, Y. Zhu, W. Chen, Exceptional thermal stability of additively manufactured CoCrFeMnNi high-entropy alloy with cellular dislocation structures, Materials Science and Engineering: A, 885 (2023) 145650.

[70] H. Ding, P. Gong, W. Chen, Z. Peng, H. Bu, M. Zhang, X. Tang, J. Jin, L. Deng, G. Xie, X. Wang, K. Yao, J. Schroers, Achieving strength-ductility synergy in metallic glasses via electric current-enhanced structural fluctuations, International Journal of Plasticity, 169 (2023) 103711.

[69] M. Allen, K. Bediako, W.J. Bowman et al., 35+ 1 challenges in materials science being tackled by PIs under 35 (ish) in 2023, Matter, 6 (2023) 2480.

[68] J. Ren, M. Wu, C. Li, S. Guan, J. Dong, J. Forien, T. Li, K.S. Shanks, D. Yu, Y. Chen, K. An, K.Y. Xie, W. Chen, T. Voisin, W. Chen, Deformation mechanisms in an additively manufactured dual-phase eutectic high-entropy alloy, Acta Materialia, 257 (2023) 119179.

[67] J. Fu, S. Mooraj, A.K. Ng, C. Zhu, W. Chen, E. Detsi, Sub-100 mA/cm² CO₂-to-CO Reduction Current Densities in Hierarchical Porous Gold Electrocatalysts Made by Direct Ink Writing and Dealloying, ACS Applied Materials & Interfaces, 15 (2023) 27905.

[66] S. Feng, S. Guan, S. Zhang, S. Mooraj, M. Luebbe, X. Fan, K.A. Beyer, T. Li, J. Liu, J. Kong, P.K. Liaw, H. Wen, S. Gerasimidis, W. Chen, Ultrafine-grained Fe-TiB2 high-modulus nanocomposite steel with high strength and isotropic mechanical properties by laser powder bed fusion, Additive Manufacturing, 70 (2023) 103569.

[65] Shahryar Mooraj, Wen Chen, A Review on High-Throughput Development of High-Entropy Alloys by Combinatorial Methods, Journal of Materials Informatics, 2023; 3: 4. DOI: 10.20517/jmi.2022.41 (Invited Review)

[64] Y. Liu, J. Ren, S. Guan, C. Li, Y. Zhang, S. Muskeri, Z. Liu, D. Yu, Y. Chen, K. An, Y. Cao, W. Liu, Y. Zhu, W. Chen, S. Mukherjee, T. Zhu, W. Chen, Microstructure and Mechanical Behavior of Additively Manufactured CoCrFeMnNi High-Entropy Alloys: Laser Directed Energy Deposition versus Powder Bed Fusion, Acta Materialia, 250 (2023) 118884.

[63] S. Zhang, P. Hou, J. Kang, T. Li, S. Mooraj, Y. Ren, A.J. Hart, S. Gerasimidis, W. Chen, Laser additive manufacturing for infrastructure repair: A case study of a deteriorated steel bridge beam, Journal of Materials Science and Technology, 154 (2023) 149.

[63] A.D. Pope, S. Iwan, M.P. Clay, Y.K. Vohra, K. Katagiri, L. Dresselhaus-Marais, J. Ren, W. Chen, Nanolamellar phase transition in an additively manufactured eutectic high-entropy alloy under high pressures, AIP Advances, 13 (2023) 035124.

[62] E. Tekoglu, A.D. O’Brien, J. Liu, B. Wang, S. Kavak, Y. Zhang, S.Y. Kim, S. Wang, D. Agaogullari, W. Chen, A.J. Hart, J. Li, Strengthening Inconel 718 through in situ formation of carbide and silicide nanoprecipitates by laser powder bed fusion, Additive Manufacturing, 67 (2023) 103478.

[61] S. Mooraj, J. Dong, K.Y. Xie, W. Chen, Formation of printing defects and their effects on mechanical properties of additively manufactured metal alloys, Journal of Applied Physics, 132 (2022) 225108. (Invited & Featured Article Selected by Editor)

[60] N. Fan, C. Huang, Z. Wang, P. Yu, W. Chen, R. Lupoi, Q, Xie, L. Liu, S. Yin, Interparticle bonding and interfacial nanocrystallization mechanisms in additively manufactured bulk metallic glass fabricated by cold spray, Additive Manufacturing, 58 (2022) 103057.

[59] J.J. Bowen, S. Mooraj, J.A. Goodman, S. Peng, D.P. Street, B. Roman-Manso, E.C. Davidson, K.L. Martin, L.M. Rueschhoff, S.N. Schiffres, W. Chen*, J.A. Lewis*, M.B. Dickson*, Hierarchically porous ceramics via direct writing of preceramic polymer-triblock copolymer inks. Materials Today, 58 (2022) 71-79.

[58] J. Ren, Y. Zhang, D. Zhao, Y. Chen, S. Guan, Y. Liu, L. Liu, S. Peng, F. Kong, J. Poplawsky, G. Gao, T. Voisin, K. An, Y.M. Wang, K.Y. Xie, T. Zhu, W. Chen, Strong yet ductile nanolamellar high-entropy alloys by additive manufacturing, Nature, 608 (2022) 62–68. (ScienceDaily, Phys. org., Nationworldnews, Nanowork, Massachusetts News,UMass News, Technology.org, Optics.org, etc)

[57] S. Son, P. Asghari-Rad, A. Zargaran, W. Chen, H.S. Kim, Superlative room temperature and cryogenic tensile properties of nanostructured CoCrFeNi medium-entropy alloy fabricated by powder high-pressure torsion, Scripta Materialia 213 (2022) 114631.

[56] S. Feng, S. Guan, W.A. Story, J. Ren, S. Zhang, A. Te, M.A. Gleason, J. Heelan, C. Walde, A. Birt, K.L. Tsaknopoulos, D.L. Cote, W. Kapalczynski, A.T. Naardi, V.K. Champagne, M.J. Siopis, W. Chen, Cold Spray Additive Manufacturing of CoCrFeNiMn High-Entropy Alloy: Process Development, Microstructure, and Mechanical Properties. Journal of Thermal Spray Technology, 116 (2022) 1-10. (Invited)

[55] J.V. Carstensen, R. Lotfi , W. Chen, S. Szyniszewski, S. Gaitanaros, J. Schroers, J.K. Guest, Topology-optimized bulk metallic glass cellular materials for energy absorption, Scripta Materialia 208 (2022) 114361.

[54] P. Hou, S. Mooraj, V.K. Champagne, M.J. Siopis, P.K. Liaw, S. Gerasimidis, W. Chen, Effect of Build Height on Temperature Evolution and Thermally Induced Residual Stresses in Plasma Arc Additively Manufactured Stainless Steel. Metallurgical and Materials Transactions A 53 (2022) 627-639.

[53] S. Guan, J. Ren, S. Mooraj, Y. Liu, S. Feng, S. Zhang, J. Liu, X. Fan, P.K. Liaw, W. Chen, Additive Manufacturing of High-Entropy Alloys: Microstructural Metastability and Mechanical Behavior, Journal of Phase Equilibria and Diffusion, 35 (2021) 1-24. (Invited Review)

[52] S. Jeon, X. Liu, C. Azersky, J. Ren, S. Zhang, W. Chen, R.W. Hyers, K. Costa, M. Kolbe, D.M. Matson, Particle size effects on dislocation density, microstructure, and phase transformation for high-entropy alloy powders, Materialia, 2021, 101161

[51] L. Lai, T. Liu, X. Cai, M. Wang, S. Zhang, W. Chen, S. Guo, High-temperature Mo-based bulk metallic glasses, Scripta Materialia 203 (2021) 114095.

[50] J. Shittu, M. Sadeghilaridjani, M. Pole, S. Muskeri, J. Ren, Y. Liu, I. Tahoun, H. Arora, W. Chen, N. Dahotre, S. Mukherjee, Tribo-corrosion response of additively manufactured high-entropy alloy, npj Materials Degradation 5 (2021): 1.

[49] S. Peng, Y. Zhang, B. Cui, T.L. Ngai, Y. Liu, Z. Xiao, W. Chen, Lamellar-structured Al-based alloys with high strength and plasticity, Journal of Alloys and Compounds, 865 (2021) 158927.

[48] W. Zhang, L. Liu, S. Peng, J. Ren, F. Wu, J. Shang, M. Chen, Y. Zhang, Z. Zhao, J. Qi, B. Wang, W. Chen, The tensile property and notch sensitivity of AlCoCrFeNi2. 1 high entropy alloy with a novel “steel-frame” eutectic microstructure, Journal of Alloys and Compounds, 863 (2021) 158747.

[47] Y. Lu, S. Su, S. Zhang, Y. Huang, Z. Qin, X. Lu, W. Chen, Controllable Additive Manufacturing of Gradient Bulk Metallic Glass Composite with High Strength and Tensile Ductility, Acta Materialia, 206 (2021) 116632.

[46] K. Yao, L. Liu, Jie Ren, Y. Guo, Y. Liu, Y. Cao, R. Feng, F. Wu, J. Qi, J. Luo, P.K. Liaw, W. Chen, High-entropy intermetallic compound with ultra-high strength and thermal stability, Scripta Materialia 194 (2021) 113674.

[45] S. Peng, S. Mooraj, R. Feng, L. Liu, J. Ren, Y. Liu, F. Kong, Z. Xiao, C. Zhu, P.K. Liaw, W. Chen, Additive Manufacturing of Three-dimensional (3D)-Architected CoCrFeNiMn High-Entropy Alloy with Great Energy Absorption, Scripta Materialia, 190 (2021) 46-51.

[44] S. Mooraj, Z. Qi, C. Zhu, J. Ren, S. Peng, L. Liu, S. Zhang, S. Feng, F. Kong, Y. Liu, E.B. Duoss, S. Baker, W. Chen, 3D printing of metal-based materials for renewable energy applications, Nano Research, 142 (2020) 1.

[43] T. Kou, S. Wang, R. Shi, T. Zhang, S. Chiovoloni, J.Q. Lu, W. Chen, M.A. Worsley, B.C. Wood, S.E. Baker, E.B. Duoss, R. Wu, C. Zhu, Y. Li, Periodic Porous 3D Electrodes Mitigate Gas Bubble Traffic during Alkaline Water Electrolysis at High Current Densities, Advanced Energy Materials, 2002955 (2020).

[42] L. Shao, J. Ketkaew, P. Gong, S. Zhao, S. Sohn, P. Bordeenithikasem, A. Datye, R.M. Mota, N. Liu, S.A. Kube, Y. Liu, W. Chen, K. Yao, S. Wu, J. Schroers, Effect of Chemical Composition on the Fracture Toughness of Bulk Metallic Glasses, Materialia, 12 (2020) 100828.

[41] Y. Zhang, W. Chen, D.L. McDowell, Y.M. Wang, T. Zhu, Lattice strains and diffraction elastic constants of cubic polycrystals, Journal of the Mechanics and Physics of Solids, 138 (2020) 103899.

[40] Y. Guo, L. Liu, W. Zhang, K.D. Yao, W. Chen, J. Ren, J.G. Qi, B. Wang, Z.F. Zhao, J. Shang, Y. Zhang, J. Xiang, A new method for preparing high entropy alloys: Electromagnetic pulse treatment and its effects on mechanical and corrosion properties, Materials Science and Engineering: A, 774 (2020): 138916.

[39] Q. Peng, Y. Xie, B. Zhu, W. Chen, J. Schroers, M. Chen, Z. Liu, Joining Mechanism of Bulk Metallic Glasses in their Supercooled Liquid Region, Journal of Materials Processing Technology, 116583, 2020.

[38] S. Mooraj, S. Welborn, S. Jiang, S. Peng, J. Fu, S. Baker, E.B. Duoss, C. Zhu, E. Detsi, W. Chen, Three-dimenstional Hierarchical Nanoporous Copper via Direct Ink Writing and Dealloying, Scripta Materialia, 177 (2020) 146-150.

[37] J. Ren, C. Mahajan, L. Liu, D. Follette, W. Chen*, S. Mukherjee*,Corrosion Behavior of Selectively Laser Melted CoCrFeMnNi High Entropy Alloy, Metals, 9 (2019): 1029. (Invited)

[36] W. Chen, T. Voisin, Y. Zhang, J-B. Florien, C.M. Spadaccini, D.L. McDowell, T. Zhu, Y.M. Wang, Microscale residual stresses in additively manufactured stainless steel, Nature Communications, 10 (2019) 4338. (LLNL News)

[35] W. Chen, S. Watts, J.A. Mancini, W.L. Smith, C.M. Spadaccini, D. Tortorelli, Isotropic stiff lattices beyond Maxwell criterion, Science Advances, 5 (2019): eaaw1937. (LLNL News, Phys. org., Nanowerk, Montreal Times)

[34] C. Zhu, Z. Qi, V.A. Beck, M. Luneau, J. Lattimer, W. Chen, M.A. Worsley, J. Ye, E.B. Duoss, C.M. Spadaccini, C.M. Friend, J. Biener, Toward digitally controlled catalyst architectures: Hierarchical nanoporous gold via 3D printing, Science Advances, 4 (2018): eaas9459. (LLNL News, UMass News, Phys. Org., Nanowerk)

[33] J. Ketkaew, W. Chen, H. Wang, A. Datye, M. Fan, G. Pereira, U.D. Schwarz, Z. Liu, R. Yamada, W. Dmowski, M.D. Shattuck, C.S. O’Hern, T. Egami, E. Bouchbinder, J. Schroers, Mechanical glass transition revealed by the fracture toughness of metallic glasses, Nature Communications, 9 (2018) 3271. (Yale News)

[32] M.A. Gibson, N.M. Mykulowycz, J. Shim, R. Fontana, P. Schmitt, A. Roberts, J. Ketkaew, L. Shao, W. Chen, P. Bordeenithikasem, J.S. Myerberg, R. Fulop, M.D. Verminski, E.M. Sachs, Y.-M. Chiang, C.A. Schuh, A.J. Hart, J. Schroers, 3D printing metals like thermoplastics: Fused filament fabrication of metallic glasses, Materials Today, 2018. (ScienceDaily, Phys.org)

[31] P. Gong, S. Wang, Z. Liu, W. Chen, N. Li, X. Wang, K.F. Yao, Lightweight Ti-based bulk metallic glasses with superior thermoplastic formability, Intermetallics, 98 (2018) 54.

[30] Z. Qi, J. Ye, W. Chen, J. Biener, E.B. Duoss, C.M. Spadaccini, M.A. Worsley, C. Zhu, 3D?Printed, Superelastic Polypyrrole–Graphene Electrodes with Ultrahigh Areal Capacitance for Electrochemical Energy Storage, Advanced Materials Technologies, 3 (2018) 1800053.

[29] W. Chen, H.F. Zhou, Z. Liu, J. Ketkaew, L. Shao, N. Li, P. Gong, W. Samela, H.J. Gao, J. Schroers, Test sample geometry for fracture toughness measurements of bulk metallic glasses, Acta Materialia, 145 (2018) 477-487.

[28] Y. M. Wang, T. Voisin, J.T. McKeown, J.C. Ye, N.P. Calta, Z. Li, Z. Zeng, Y. Zhang, W. Chen, T.T. Roehling, R.T. Ott, M.K. Santala, P.J. Depond, M.J. Matthews, A.V. Hamza, T. Zhu, Additively-manufactured hierarchical stainless steels with high strength and ductility, Nature Materials, 17 (2018) 63-71. (ScienceDaily, Phys.org, Nanowerk)

[27] F. Qian, P.C. Lan, M.C. Freyman, W. Chen, T. Kou, T.Y. Olson, C. Zhu, M.A. Worsley, E.B. Duoss, C.M. Spadaccini, T. Baumann, T.Y. Han, Ultralight Conductive Silver Nanowire Aerogels, Nano Letters. 17 (2017) 7171-7176.

[26] C. Zhu, T. Kou, F. Qian, W. Chen, S. Chandrasekaran, B. Yao, Y. Song, J.D. Kuntz, E.B. Duoss, C.M. Spadaccini, M.A. Worsley, Y. Li, 3D Printed Functional Nanomaterials for Electrochemical Energy Applications: a Review, Nano Today, 15 (2017) 107-120. (Invited Review)

[25] W. Chen, L. Thornley, H.G. Coe, C. Zhu, E.B. Duoss, R.M. Hunt, M.J. Wight, D. Apelian, A.J. Pascall, J.D. Kuntz, C.M. Spadaccini, Direct metal writing: Controlling the rheology through microstructure, Applied Physics Letters, 110 (2017) 094104. (Phys.org, Nanowerk)

[24] W. Chen, H.F. Zhou, Z. Liu, J. Ketkaew, N. Li, J. Yurko, N. Hutchinson, H.J. Gao, J. Schroers, Processing effects on fracture toughness of metallic glasses, Scripta Materialia, 130 (2017) 152-156.

[23] W. Chen, Z. Liu, J. Ketkaew, R. Mota, S. Kim, M. Power, W. Samela, J. Schroers, Flaw tolerance of metallic glasses, Acta Materialia, 107 (2016) 220-228.

[22] N. Li, W. Chen, L. Liu, Thermoplastic micro-forming of bulk metallic glasses: A Review, JOM, 68 (2016) 1246-1261.

[21] D.J. Magagnosc, W. Chen, G. Kumar, J. Schroers, D.S. Gianola, Thermomechanical behavior of molded metallic glass nanowires, Scientific Reports, 6 (2016) 19530.

[20] C. Su, Y. Chen, P. Yu, M. Song, W. Chen, S.F. Guo, Linking the thermal characteristics and mechanical properties of Fe-based bulk metallic glasses, Journal of Alloys and Compounds, 663 (2016) 867-871.

[19] Z. Liu*, W. Chen*, J. Carstense, J. Ketkaew, R. Mota, J.K. Guest, J. Schroers, 3D metallic glass cellular structures, Acta Materialia, 105 (2016) 35-43.

[18] S.F. Guo, K.C. Chan, Z.Q. Zhu, Z.R. Wu, W. Chen, M. Song, Microstructure and tensile behavior of small scale resistance spot welding of sandwich bulk metallic glasses, Journal of Non-Crystalline Solids, 447 (2016) 300-306.

[17] R. Lofti, J.V. Carstensen, J.K. Guest, W. Chen, J. Schroers, Topology optimization of cellular materials with maximized energy absorption, ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Boston, MA.

[16] J. Kong*, Z. Ye, W. Chen*, X. Shao, K. Wang, Q. Zhou, Dynamic mechanical behavior of a Zr-based bulk metallic glass composite, Materials & Design 88 (2015) 69-74.

[15] W. Chen, J. Ketkaew, Z. Liu, R. Mota, K.S. O’Brien, J. Schroers, Does the fracture toughness of bulk metallic glasses scatter? Scripta Materialia, 107 (2015) 1-4. (Featured as ScienceDirect Top 25 Hottest Article)

[14] J. Ketkaew, Z. Liu, W. Chen, J. Schroers, Critical crystallization for embrittlement in metallic glasses, Physical Review Letters, 115 (2015) 265502.

[13] W. Chen, Z. Liu, H. Robinson, J. Schroers, Flaw tolerance versus performance: a tradeoff in metallic glass cellular structures, Acta Materialia, 73 (2014): 259-274.

[12] W. Chen, Z. Liu, J. Schroers, Joining of metallic glasses in air, Acta Materialia, 62 (2014): 49-57. (Featured as ScienceDirect Top 25 Hottest Article)

[11] S.F. Guo*, J.L. Qiu, P. Yu, S.H. Xie, W. Chen*, Fe-based bulk metallic glasses: brittle or ductile? Applied Physics Letters, 105 (2014): 161901.

[10] W. Chen, K.C. Chan, S.H. Chen, S.F. Guo, W.H. Li, G. Wang, Plasticity enhancement of a Zr-based bulk metallic glass by an electroplated Cu/Ni bilayered coating, Materials Science and Engineering: A, 552 (2012): 199-203.

[9] W. Chen, K.C. Chan, P. Yu, G. Wang, Encapsulated Zr-based bulk metallic glass with large plasticity, Materials Science and Engineering: A, 528 (2011): 2988-2994.

[8] W. Chen, K.C. Chan, S.F. Guo, P. Yu, Plasticity improvement of an Fe-based bulk metallic glass by geometric confinement, Materials Letters, 65 (2011): 1172-1175.

[7] W. Chen, J. Kong, W.J. Chen, Effect of rare earth Ce on the microstructure, physical properties and thermal stability of a new lead-free solder, Journal of Mining and Metallurgy Section B-Metallurgy, 47 (2011): 11-21.

[6] S.F. Guo, H.J. Zhang, Z. Liu, W. Chen, S.F. Xie, Corrosion resistances of amorphous and crystalline Zr-based alloys in simulated seawater, Electrochemistry Communications, 24 (2012) 39-42.
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[5] S.F. Guo, Z. Liu, K.C. Chan, W. Chen, H.J. Zhang, J.F. Wang, A plastic Ni-free Zr-based metallic glass with high specific strength and good corrosion properties in simulated body fluid, Materials Letters, 84 (2012): 81-84.

[4] J. Kong, Z.T. Ye, J. Li, W. Chen, X. Ma, Embrittlement of a bulk metallic glass containing ductile phase after low-temperature annealing, Physica Status Solidi B, 2012: 1-5.

[3] P. Yu, K.C. Chan, W. Chen, L. Xia, Elastic moduli and mechanical properties of bulk metallic glasses after quasi-static compression, Journal of Alloys and Compounds, 509 (2011): 8518-8521.

[2] J. Kong, C. Xu, J. Li, W. Chen, H. Hou, Evolution of fractal features of pores in compacting and sintering process, Advanced Powder Technology, 22 (2011): 439-442.

[1] P. Yu, K.C. Chan, W. Chen, L. Xia, Low temperature mechanical properties of Ce68Al10Cu20Co2 bulk metallic glass, Philosophical Magazine Letters, 91 (2010) 75-82.

Book Chapters

[1] High-Entropy Materials: Theory, Experiments, and Applications, Springer International Publishing, DOI10.1007/978-3-030-77641-1, 2021.

Patents

[4] Z. Qi, J. Biener, W. Chen, E. Duoss, C. Spadaccini, M.A. Worsley, J. Ye, C. Zhu, Hierarchical porous metals with deterministic 3D morphology and shape via dealloying of 3D printed alloys, US. 15790810, 2019

[3] J. Ye, J. Biener, P. Campbell, W. Chen, J.A. Jackson, B.D. Moran, J. Oakdale, W. Smith, C. Spadaccini, M.A. Worsley, X. Zheng, Three-dimensional deterministic graphene architectures formed using three-dimensional templates, US. 15417134, 2018.

[2] J. Schroers, Z. Liu, M. Kanik, W. Chen, P. Bordeenithikasem, R. Mota, J. Ketkaew, A method and system of fabricating bulk metallic glass sheets, WO2015134089 A3, 2015.

[1] J. Schroers, W. Chen, Z. Liu, Joining of metallic glasses in air, US. 9,764,418., 2017.