Publications
Selected publications (out of ~ 80; Google Scholar citations > 10,000; h-index 39):
B. Chen, J.-F. Lin, J. Chen, H. Z. Zhang, Q. Zeng, Synchrotron-based high pressure research in materials science, MRS Bulletin, 41, 473 (2016).
De Yoreo, J. J.; Gilbert, P. U. P. A.; Sommerdijk, N. A. J. M.; Penn, R. L.; Whitelam, S.; Joester, D.; Zhang, H.; Rimer, J. D.; Navrotsky, A.; Banfield, J. F.; Wallace, A. F.; Michel, F. M.; Meldrum, F. C.; Colfen, H.; Dove, P. M.* Crystallization by particle attachment in synthetic, biogenic, and geologic environments. Science 2015, 349, aaa6760. DOI: 10.1126/science.aaa6760 (PDF)
Zhang, H.*; Banfield, J. F. Structural characteristics and mechanical and thermodynamic properties of nanocrystalline TiO2. Chem. Revs. 2014, 114, 9613 – 9644 (PDF).
Zhang, H.; De Yoreo, J. J.; Banfield, J. F.* A unified description of attachment-based crystal growth. ACS Nano, 2014, 8, 6526 – 6530 (PDF).
Zhang, H.*; Banfield, J. F. Interatomic Coulombic interactions as the driving force for oriented attachment. CrystEngComm, 2014, 16, 1568-1578 (PDF).
Zhang, H.*; Finnegan, M. F.; Banfield, J. F. Titania nanorods curve to lower their energy. Nanoscale 2013, 5, 6742 – 6746 (PDF).
Zhang, H.*; Banfield, J.F.* Energy calculations predict nanoparticle attachment orientations and asymmetric crystal formation. J. Phys. Chem. Lett. 2012, 3, 2882-2886 (PDF).
Zhuang, Z,; Huang, F.; Lin, Z*.; Zhang, H.* Aggregation-induced fast crystal growth of SnO2 nanocrystals. J. Am. Chem. Soc. 2012, 134, 16228-16234 (PDF).
Fernando, S; Baynes, M; Chen, B; Banfield, J. F.; Zhang, H.* Compressibility and structural stability of nanoparticulate goethite. RSC Adv. 2012, 2, 6768 -6772 (PDF).
Zhang, H.*; Chen, B.; Banfield, J. F. The size dependence of the surface free energy of titania nanocrystals. Phys. Chem. Chem. Phys. 2009, 11, 2553 (PDF).
Chen, B.*; Zhang, H.; Dunphy-Guzman, K. A.; Spagnoli, D.; Kruger, M. B.; Muthu, D. V. S.; Kunz, M.; Fakra, Sirine; Hu, J. Z.; Guo, Q. Z.; Banfield, J. F. Size-dependent elasticity of nanocrystalline titania. Phys. Rev. B 2009, 79, 125406 (PDF).
Zhang, H.*; Chen, B.; Waychunas, G. A.; Banfield, J. F. Atomic structure of nanometer-sized amorphous TiO2. Phys. Rev. B 2008, 78, 214106 (PDF).
Chen, B.*; Zhang, H.; Gilbert, B.; Banfield, J. F. Mechanism of inhibition of nanoparticle growth and phase transformation by surface impurities. Phys. Rev. Lett. 2007, 98, 106103 (PDF).
Gilbert, B.; Huang, F.; Zhang, H.; Waychunas, G. A.; Banfield, J. F.* Nanoparticles: strained and stiff. Science 2004, 305, 651 (PDF).
Zhang, H.*; Banfield, J. F. Aggregation, coarsening, and phase transformation in ZnS nanoparticles studied by molecular dynamics simulations. Nano Lett. 2004, 4, 713 (PDF).
Zhang, H.; Gilbert, B.; Huang, F.; Banfield, J. F.* Water-driven structure transformation in nanoparticles at room temperature. Nature 2003, 424, 1025 (PDF).
Zhang, H.*; Huang, F.; Gilbert, B.; Banfield, J. F. Molecular dynamics simulations, thermodynamics analysis and experimental study of phase stability of zinc sulfide nanoparticles. J. Phys. Chem. B 2003, 107, 13051 (PDF).
Zhang, H.*; Finnegan, M.; Banfield, J. F. Preparing single-phase nanocrystalline anatase from amorphous titania with particle sizes tailored by temperature. Nano Lett. 2001, 1, 81 (PDF).
Banfield, J. F.*; Welch, S. A.; Zhang, H.; Ebert, T. T.; Penn, R. L. Aggregation-based crystal growth and microstructure development in natural iron oxyhydroxide biomineralization products. Science 2000, 289, 751 (PDF).
Zhang, H.*; Banfield, J. F. Understanding polymorphic phase transformation behavior during growth of nanocrystalline aggregates: insights from TiO2. J. Phys. Chem. B 2000, 104, 3481 (PDF).
Zhang, H.*; Banfield, J. F. Phase transformation of nanocrystalline anatase-to-rutile via combined interface and surface nucleation. J. Mater. Res. 2000, 15, 437 (PDF).
Zhang, H.*; Banfield, J. F. New kinetic model for the nanocrystalline anatase-to-rutile transformation revealing rate dependence on number of particles. Am. Mineral. 1999, 84, 528 (PDF).
Zhang, H.*; Banfield, J. F. Thermodynamic analysis of phase stability of nanocrystalline titania. J. Mater. Chem. 1998, 8, 2073 (PDF).
Google Scholar page:
https://scholar.google.com/citations?user=87T1wFIAAAAJ&hl=en&oi=ao
A snapshot of above page:
http://eps.berkeley.edu/~heng/HZ-Citations.pdf
ResearchGate page:
http://www.researchgate.net/profile/Hengzhong_Zhang
Last update July, 2018