Natural Wax for Transient Electronics
Won SM+, Koo J+, Crawford KE+, Mickle AD, Xue Y, Min S, McIlvred LA, Yan Y, Kim SB, Lee SM, Kim BH, Jang H, MacEwan MR, Huang Y, Gereau RW IV, Rogers JA. “Natural Wax for Transient Electronics.” Adv. Func. Mater. 2018, 1801819. +Co-first author.
Optogenetic Silencing of Primary Afferents Reduces Evoked and Ongoing Bladder Pain
Samineni, VK., Mickle, AD., Yoon, J., Grajales-Reyes, JG., Pullen, M., Crawford, KE., Noh, KN., Gereau, GB., Vogt, S., Lai, HH., Rogers, JA., Gereau, RW.,* Scientific Reports 2017, 7, 15865. DOI: 10.1038/s41598-01716129-3
Dissolution of Monocrystalline Silicon Nanomembranes and of Their Use as Encapsulation Layers and Electrical Interfaces in Water-Soluble Forms of Electronics
Lee, YK., Yu, KJ., Song, E., Farimani, AB., Vitale, F., Xie, Z., Yoon, Y., Kim, Y., Richardson, A., Luan, H., Wu, Y., Xie, X., Lucas, TH., Crawford, KE., Mei, Y., Feng, X., Huang, Y., Litt, B., Aluru, NR., Yin, L., Rogers, JA.* ACS Nano 2017, 11, 12562. DOI: 10.1021/acsnano.7b06697
Fully Implantable, Battery-Free Wireless Optoelectronic Devices for Spinal Optogenetics
Samineni VK, Yoon J, Crawford KE, Jeong YR, Golden JP, Mickle AD, Shin G, Xie Z, Sundaram SS, McKenzie KC, Li Y, Yang MY, Kim J, Wu D, Xue Y, Feng X, Huang Y, Banks A, Ha JS, Rogers JA, Gereau RW. “Fully Implantable, Battery-Free Wireless Optoelectronic Devices for Spinal Optogenetics.” Pain 2017, 1
Flexible and Stretchable 3ω Sensors for Thermal Characterization of Human Skin
Tian, L., Li, Y., Webb, RC., Krishnan, S., Bian, Z., Ning, X., Crawford, KE., Kurniawan, J., Bonifas, A., Ma, J., Liu, Y., Xie, X., Chen, J., Liu, Y., Shi, Z., Wu, T., Ning, R., Li, D., Sinha, S., Cahill, DG., Huang, Y.,* Rogers, JA.* Advanced Functional Materials 2017, 27, 1701282. DOI: 10.1002/adfm.201701282
Multimodal Epidermal Devices for Hydration Monitoring
Krishnan S, Shi, Y, Webb RC, Ma Y, Bastein P, Crawford KE, Manco M, Kurniawan J, Tir E, Huang Y, Balooch G, Pielak RM, Rogers JA. “Multimodal Epidermal Devices for Hydration Monitoring.” Microsystems and Nanoengineering 2017, 3, 17014.
Materials and Device Designs for an Epidermal UV Colorimetric Dosimeter with Near Field Communication Capabilities
Araki H, Kim J, Zhang S, Banks A, Crawford KE, Sheng X, Gutruf P, Pielak RM, Rogers JA. “Materials and Device Designs for an Epidermal UV Colorimetric Dosimeter with Near Field Communication Capabilities.” Adv. Func. Mater. 2017, 27, 1604465.
De Novo Design of a New Class of ‘Hard-Soft’ Amorphous, Microphase Separated Polyolefin Block Copolymer Thermoplastic Elastomer
Crawford KE, Sita LR. “De Novo Design of a New Class of ‘Hard-Soft’ Amorphous, Microphase Separated Polyolefin Block Copolymer Thermoplastic Elastomer” ACS Macro Lett. 2015, 4, 921.
Regio- and Stereospecific Cyclopolymerization of Bis(2-propenyl)-diorganosilanes and the Two-State Stereoengineering of 3,5-cis, isotactic Poly(3,5-methylene-1-silacyclohexane)s
Crawford KE, Sita LR. “Regio- and Stereospecific Cyclopolymerization of Bis(2-propenyl)-diorganosilanes and the Two-State Stereoengineering of 3,5-cis, isotactic Poly(3,5-methylene-1-silacyclohexane)s.” ACS Macro Lett. 2014, 3, 506.
Stereoengineering of Poly(1,3-methylenecyclohexane) via Two-State Living Coordination Polymerization of 1,6-Heptadiene
Crawford KE, Sita LR. “Stereoengineering of Poly(1,3-methylenecyclohexane) via Two-State Living Coordination Polymerization of 1,6-Heptadiene.” J. Am. Chem. Soc. 2013, 135, 8778.