2024

[29] M Hübl, CP Goodrich. Accessing Semi-Addressable Self Assembly with Efficient Structure Enumeration. 2024. arXiv:2405.13567.

[28] M Zu, CP Goodrich. Designing athermal disordered solids with automatic differentiation. 2024. *Communications Materials* **5**, 141 [arxiv]

2023

[27] AI Curatolo, O Kimchi, CP Goodrich, RK Krueger, MP Brenner. A computational toolbox for the assembly yield of complex and heterogeneous structures. 2023. Nature Communications, 14, Pp. 8328.

2021

[26] L Li, CP Goodrich, H Yang, KR Phillips, Z Jia, H Chen, L Wang, J Zhong, A Liu, J Lu, J Shuai, MP Brenner, F Spaepen, and J Aizenberg. Microscopic origins of the crystallographically preferred growth in evaporation-induced colloidal crystals. 2021. Proc. Nat. Acad. Sci., 118 (32) e2107588118.

[25] CP Goodrich,* EM King,* SS Schoenholz, ED Cubuk, and MP Brenner. Designing self-assembling kinetics with differentiable statistical physics models. 2021. Proc. Nat. Acad. Sci., 118 (10), e2024083118.

2020

[24] O Kimchi, CP Goodrich, A Courbet, AI Curatolo, NB Woodall, D Baker, and MP Brenner. Self-assembly–based posttranslational protein oscillators. 2020. Sciences Advances, 6, 51 (2020).

2018

[23] CP Goodrich, MP Brenner, and K Ribbeck. 2018. “Enhanced diffusion by binding to the crosslinks of a polymer gel.” Nature Communications, 9, Pp. 4348.

2017

[22] JP Sethna, MK Bierbaum, KA Dahmen, CP Goodrich, JR Greer, LX Hayden, JP Kent-Dobias, ED Lee, DB Liarte, X Ni, KN Quinn, A Raju, DZ Rocklin, A Shekhawat, and S Zapperi. 2017. “Deformation of Crystals: Connections with Statistical Physics.” Annu. Rev. Mater. Res., 47, Pp. 217.

[21] JW Rocks, N Pashine, I Bischofberger, CP Goodrich, A. J. Liu, and SR Nagel. 2017. “Designing allostery-inspired response in mechanical networks.” Proc. Nat. Acad. Sci., 114, Pp. 2520.

[20] M Baity-Jesi, CP Goodrich, A. J. Liu, SR Nagel, and JP Sethna. 2017. “Emergent SO(3) Symmetry of the Frictionless Shear Jamming Transition.” J Stat Phys, 167, Pp. 217.

[19] CP Goodrich and MP Brenner. 2017. “Using active colloids as machines to weave and braid on the micrometer scale.” PNAS, 114, 2, Pp. 257-262.

2016

[18] J. M. Rieser, CP Goodrich, A. J. Liu, and D. J. Durian. 2016. “Divergence of Voronoi Cell Anisotropy Vector: A Threshold-Free Characterization of Local Structure in Amorphous Materials.” Phys. Rev. Lett., 116, Pp. 088001.

[17] R Lombardini, R Acevedo, A Kuczala, KP Keys, CP Goodrich, and BR Johnson. 2016. “Higher-order wavelet reconstruction/differentiation filters and Gibbs phenomena.” Journal of Computational Physics, 305, Pp. 244 – 262.

[16] AL Graves, S Nashed, E Padgett, CP Goodrich, AJ Liu, and JP Sethna. 2016. “Pinning Susceptibility: The Effect of Dilute, Quenched Disorder on Jamming.” Phys. Rev. Lett., 116, Pp. 235501.

[15] CP Goodrich, A. J. Liu, and JP Sethna. 2016. “Scaling ansatz for the jamming transition.” PNAS, 113, 35, Pp. 9745-9750.

See Commentary by Srikanth Sastry

[14] DM Sussman, CP Goodrich, and A. J. Liu. 2016. “Spatial structure of states of self stress in jammed systems.” Soft Matter, 12, Pp. 3982-3990.

2015

[13] R van Drongelen, A Pal, CP Goodrich, and T Idema. 2015. “Collective dynamics of soft active particles.” Phys. Rev. E, 91, Pp. 032706.

[12] DM Sussman, CP Goodrich, A. J. Liu, and SR Nagel. 2015. “Disordered surface vibrations in jammed sphere packings.” Soft Matter, 11, Pp. 2745-2751.

[11] CP Goodrich, A. J. Liu, and SR Nagel. 2015. “The Principle of Independent Bond-Level Response: Tuning by Pruning to Exploit Disorder for Global Behavior.” Phys. Rev. Lett., 114, Pp. 225501.

2014

[10] CP Goodrich, A. J. Liu, and SR Nagel. 2014. “Comment on “Repulsive Contact Interactions Make Jammed Particulate Systems Inherently Nonharmonic”.” Phys. Rev. Lett., 112, Pp. 049801.

[9] CP Goodrich, AJ Liu, and SR Nagel. 2014. “Contact nonlinearities and linear response in jammed particulate packings.” Phys. Rev. E, 90, Pp. 022201.

[8] CP Goodrich, S Dagois-Bohy, BP Tighe, M van Hecke, A. J. Liu, and SR Nagel. 2014. “Jamming in finite systems: Stability, anisotropy, fluctuations, and scaling.” Phys. Rev. E, 90, Pp. 022138.

[7] T Still, CP Goodrich, K. Chen, PJ Yunker, S Schoenholz, A. J. Liu, and AG Yodh. 2014. “Phonon dispersion and elastic moduli of two-dimensional disordered colloidal packings of soft particles with frictional interactions.” Phys. Rev. E, 89, Pp. 012301.

[6] CP Goodrich, A. J. Liu, and SR Nagel. 2014. “Solids between the mechanical extremes of order and disorder.” Nature Physics, 10, Pp. 578–581.

Featured in PennNews and Materials360

See also accompanying News and Views by Giulio Biroli

[5] MA Lohr, T Still, R Ganti, MD Gratale, ZS Davidson, KB Aptowicz, CP Goodrich, DM Sussman, and AG Yodh. 2014. “Vibrational and structural signatures of the crossover between dense glassy and sparse gel-like attractive colloidal packings.” Phys. Rev. E, 90, Pp. 062305.

2013

[4] CP Goodrich, WG Ellenbroek, and AJ Liu. Stability of jammed packings I: the rigidity length scale. Soft Matter, 9, 46, pp. 10993 (2013).

[3] SS Schoenholz, CP Goodrich, O Kogan, AJ Liu, and SR Nagel. Stability of jammed packings II: the transverse length scale. Soft Matter, 9, 46, pp. 11000 (2013).

2012

[2] CP Goodrich, AJ Liu, and SR Nagel. Finite-Size Scaling at the Jamming Transition. Phys. Rev. Lett., 109, pp. 095704 (2012).

Featured in *Physics* as a Viewpoint by Eric Corwin

2007

[1] CP Goodrich, S Kirmizialtin, BM Huyghues-Despointes, A Zhu, JM Scholtz, DE Makarov, and L Movileanu. Single-Molecule Electrophoresis of β-Hairpin Peptides by Electrical Recordings and Langevin Dynamics Simulations. The Journal of Physical Chemistry B, 111, 13, pp. 3332-3335 (2007).