Nature Nanotechnology
Nature Nanotechnology, Vol.14, No.3 Entire volume, number list
ISSN: 1748-3387 (Print)
In this Issue (24 articles)
| 193 - 193 |
Nanomaterials definition matters [Anonymous] |
| 193 - 193 |
Recognizing peer reviewers [Anonymous] |
| 194 - 194 |
Do-it-yourself thermoelectrics Bubnova O |
| 194 - 194 |
A spin-orbit gap in graphene Heinrich B |
| 194 - 194 |
Converting light into ATP Moscatelli A |
| 194 - 194 |
Liver immunomodulation Pastore C |
| 195 - 196 |
Opening the vascular gate Malinova TS, Huveneers S |
| 196 - 197 |
Trojan horses for immunotherapy Hubbell JA, Swartz MA |
| 198 - 199 |
Deep learning beats the optical diffraction limit Miroshnichenko A |
| 200 - 207 |
Bridging the academic and industrial metrics for next-generation practical batteries Cao YL, Li M, Lu J, Liu J, Amine K |
| 208 - 216 |
Legal and practical challenges in classifying nanomaterials according to regulatory definitions Miernicki M, Hofmann T, Eisenberger I, von der Kammer F, Praetorius A |
| 217 - + |
Observation of ballistic avalanche phenomena in nanoscale vertical InSe/BP heterostructures Gao AY, Lai JW, Wang YJ, Zhu Z, Zeng JW, Yu GL, Wang NZ, Chen WC, Cao TJ, Hu WD, Sun D, Chen XH, Miao F, Shi Y, Wang XM |
| 223 - + |
Crested two-dimensional transistors Liu T, Liu S, Tu KH, Schmidt H, Chu LQ, Xiang D, Martin J, Eda G, Ross CA, Garaj S |
| 227 - + |
Achromatic metalens array for full-colour light-field imaging Lin RJ, Su VC, Wang SM, Chen MK, Chung TL, Chen YH, Kuo HY, Chen JW, Chen J, Huang YT, Wang JH, Chu CH, Wu PC, Li T, Wang ZL, Zhu SN, Tsai DP |
| 232 - + |
Vanishing skyrmion Hall effect at the angular momentum compensation temperature of a ferrimagnet Hirata Y, Kim DH, Kim SK, Lee DK, Oh SH, Kim DY, Nishimura T, Okuno T, Futakawa Y, Yoshikawa H, Tsukamoto A, Tserkovnyak Y, Shiota Y, Moriyama T, Choe SB, Lee KJ, Ono T |
| 237 - + |
Pushing the limits of optical information storage using deep learning Wiecha PR, Lecestre A, Mallet N, Larrieu G |
| 245 - + |
Unravelling inherent electrocatalysis of mixed-conducting oxide activated by metal nanoparticle for fuel cell electrodes Choi Y, Cha SK, Ha H, Lee S, Seo HK, Lee JY, Kim HY, Kim SO, Jung W |
| 252 - + |
DNA nanodevices map enzymatic activity in organelles Dan K, Veetil AT, Chakraborty K, Krishnan Y |
| 260 - + |
Immunoglobulin deposition on biomolecule corona determines complement opsonization efficiency of preclinical and clinical nanoparticles Vu VP, Gifford GB, Chen FF, Benasutti H, Wang GK, Groman EV, Scheinman R, Saba L, Moghimi SM, Simberg D |
| 269 - + |
Endosomolytic polymersomes increase the activity of cyclic dinucleotide STING agonists to enhance cancer immunotherapy Shae D, Becker KW, Christov P, Yun DS, Lytton-Jean AKR, Sevimli S, Ascano M, Kelley M, Johnson DB, Balko JM, Wilson JT |
| 279 - + |
Nanoparticles promote in vivo breast cancer cell intravasation and extravasation by inducing endothelial leakiness Peng F, Setyawati MI, Tee JK, Ding XG, Wang JP, Nga ME, Ho HK, Leong DT |
| 287 - + |
Self-assembled peptide-poloxamine nanoparticles enable in vitro and in vivo genome restoration for cystic fibrosis Guan S, Munder A, Hedtfeld S, Braubach P, Glage S, Zhang LG, Lienenklaus S, Schultze A, Hasenpusch G, Garrels W, Stanke F, Miskey C, Johler SM, Kumar Y, Tummler B, Rudolph C, Ivics Z, Rosenecker J |
| 298 - 298 |
Interatomic force laws that evade dynamic measurement (vol 13, pg 1088, 2018) Sader JE, Hughes BD, Huber F, Giessibl FJ |
| 298 - 298 |
Immunoglobulin deposition on biomolecule corona determines complement opsonization efficiency of preclinical and clinical nanoparticles (vol 14, pg 260, 2019) Vu VP, Gifford GB, Chen FF, Benasutti H, Wang GK, Groman EV, Scheinman R, Saba L, Moghimi SM, Simberg D |