Ultrasensitive mechanical crack-based sensor inspired by the spider sensory system D Kang, PV Pikhitsa, YW Choi, C Lee, SS Shin, L Piao, B Park, KY Suh, ... Nature 516 (7530), 222-226, 2014 | 1353 | 2014 |
Trapped charge-driven degradation of perovskite solar cells N Ahn, K Kwak, MS Jang, H Yoon, BY Lee, JK Lee, PV Pikhitsa, J Byun, ... Nature communications 7 (1), 13422, 2016 | 541 | 2016 |
A novel hybrid carbon material AG Nasibulin, PV Pikhitsa, H Jiang, DP Brown, AV Krasheninnikov, ... Nature Nanotechnology 2 (3), 156-161, 2007 | 501 | 2007 |
Correlation between catalyst particle and single-walled carbon nanotube diameters AG Nasibulin, PV Pikhitsa, H Jiang, EI Kauppinen Carbon 43 (11), 2251-2257, 2005 | 326 | 2005 |
Parallel patterning of nanoparticles via electrodynamic focusing of charged aerosols H Kim, J Kim, H Yang, J Suh, T Kim, B Han, S Kim, DS Kim, PV Pikhitsa, ... Nature nanotechnology 1 (2), 117-121, 2006 | 207 | 2006 |
A dendrite model of current instability in RbAg4I5 VN Bondarev, PV Pikhitsa Solid State Ionics 70, 72-76, 1994 | 189 | 1994 |
Investigations of NanoBud formation AG Nasibulin, AS Anisimov, PV Pikhitsa, H Jiang, DP Brown, M Choi, ... Chemical Physics Letters 446 (1-3), 109-114, 2007 | 134 | 2007 |
Three-dimensional assembly of nanoparticles from charged aerosols H Lee, S You, PV Pikhitsa, J Kim, S Kwon, CG Woo, M Choi Nano letters 11 (1), 119-124, 2011 | 120 | 2011 |
Formation of shell‐shaped carbon nanoparticles above a critical laser power in irradiated acetylene M Choi, IS Altman, YJ Kim, PV Pikhitsa, S Lee, GS Park, T Jeong, JB Yoo Advanced Materials 16 (19), 1721-1725, 2004 | 117 | 2004 |
Three-dimensional nanoprinting via charged aerosol jets W Jung, YH Jung, PV Pikhitsa, J Feng, Y Yang, M Kim, HY Tsai, T Tanaka, ... Nature 592 (7852), 54-59, 2021 | 113 | 2021 |
Ultra-sensitive pressure sensor based on guided straight mechanical cracks YW Choi, D Kang, PV Pikhitsa, T Lee, SM Kim, G Lee, D Tahk, M Choi Scientific reports 7 (1), 40116, 2017 | 111 | 2017 |
Studies on mechanism of single-walled carbon nanotube formation AG Nasibulin, P Queipo, SD Shandakov, DP Brown, H Jiang, PV Pikhitsa, ... Journal of nanoscience and nanotechnology 6 (5), 1233-1246, 2006 | 99 | 2006 |
Transparent ITO mechanical crack-based pressure and strain sensor T Lee, YW Choi, G Lee, PV Pikhitsa, D Kang, SM Kim, M Choi Journal of Materials Chemistry C 4 (42), 9947-9953, 2016 | 98 | 2016 |
Hotspot‐engineered 3D multipetal flower assemblies for surface‐enhanced Raman spectroscopy K Jung, J Hahn, S In, Y Bae, H Lee, PV Pikhitsa, K Ahn, K Ha, JK Lee, ... Advanced Materials 26 (34), 5924-5929, 2014 | 90 | 2014 |
Unconventional alloys confined in nanoparticles: building blocks for new matter J Feng, D Chen, PV Pikhitsa, Y Jung, J Yang, M Choi Matter 3 (5), 1646-1663, 2020 | 71 | 2020 |
Decay dynamics in disordered systems: Application to heavily doped semiconductors I Kuskovsky, GF Neumark, VN Bondarev, PV Pikhitsa Physical review letters 80 (11), 2413, 1998 | 57 | 1998 |
Integration of single-walled carbon nanotubes into polymer films by thermo-compression AG Nasibulin, A Ollikainen, AS Anisimov, DP Brown, PV Pikhitsa, ... Chemical engineering journal 136 (2-3), 409-413, 2008 | 55 | 2008 |
Electron field emission from nanocarbons: A two-process model IS Altman, PV Pikhitsa, M Choi Applied physics letters 84 (7), 1126-1128, 2004 | 53 | 2004 |
Room temperature CO and H2 sensing with carbon nanoparticles D Kim, PV Pikhitsa, H Yang, M Choi Nanotechnology 22 (48), 485501, 2011 | 48 | 2011 |
Degradation of CH 3 NH 3 PbI 3 perovskite materials by localized charges and its polarity dependency M Kim, N Ahn, E Lim, YU Jin, PV Pikhitsa, J Heo, SK Kim, HS Jung, ... Journal of Materials Chemistry A 7 (19), 12075-12085, 2019 | 31 | 2019 |