S. Kokilavani, B. Janani, S. Balasurya & S. Sudheer Khan. 2023. Agricultural and Environmental Nanotechnology. Agricultural and Environmental Nanotechnology
551
582
.
Chunting Yu, Zengjun Xiao, Wangyou Chu, Qiang Zhang, Yang Chen & Dongfeng Zhao. (2022) High-Resolution Electronic Spectrum of the 1,4,6-Heptatrienyl Radical in the Gas Phase. The Journal of Physical Chemistry A 126:45, pages 8398-8403.
Crossref
Joseph L. GravesJr.Jr.. 2022. Principles and Applications of Antimicrobial Nanomaterials. Principles and Applications of Antimicrobial Nanomaterials
49
61
.
M.S. Phillips, J.E. Moersch, C.E. Viviano & J.P. Emery. (2021) The lifecycle of hollows on Mercury: An evaluation of candidate volatile phases and a novel model of formation. Icarus 359, pages 114306.
Crossref
Leticia Gómez-Nubla, Julene Aramendia, Silvia Fdez-Ortiz de Vallejuelo, Kepa Castro & Juan Manuel Madariaga. (2018) Detection of organic compounds in impact glasses formed by the collision of an extraterrestrial material with the Libyan Desert (Africa) and Tasmania (Australia). Analytical and Bioanalytical Chemistry 410:25, pages 6609-6617.
Crossref
Shweta Singh, Kanchan Vishwakarma, Swati Singh, Shivesh Sharma, Nawal Kishore Dubey, Vivek Kumar Singh, Shiliang Liu, Durgesh Kumar Tripathi & Devendra Kumar Chauhan. (2017) Understanding the plant and nanoparticle interface at transcriptomic and proteomic level: A concentric overview. Plant Gene 11, pages 265-272.
Crossref
L. Biennier, V. Jayaram, N. Suas-David, R. Georges, M. Kiran Singh, E. Arunan, S. Kassi, E. Dartois & K. P. J. Reddy. (2017)
Shock-wave processing of C
60
in hydrogen
. Astronomy & Astrophysics 599, pages A42.
Crossref
Sekhar Chandra Ray & Nikhil Ranjan Jana. 2017. Carbon Nanomaterials for Biological and Medical Applications. Carbon Nanomaterials for Biological and Medical Applications
43
86
.
Tandabany C. Dinadayalane & Jerzy Leszczynski. 2017. Handbook of Computational Chemistry. Handbook of Computational Chemistry
1175
1258
.
Max Boholm & Rickard Arvidsson. (2016) A Definition Framework for the Terms Nanomaterial and Nanoparticle. NanoEthics 10:1, pages 25-40.
Crossref
Sharad Gokhale. (2016) Effects of Engineered Nanomaterials Released into the Atmosphere. Journal of Hazardous, Toxic, and Radioactive Waste 20:1.
Crossref
Tandabany C. Dinadayalane & Jerzy Leszczynski. 2016. Handbook of Computational Chemistry. Handbook of Computational Chemistry
1
84
.
M. V. Raja Pavan & Valery N. Khabashesku. (2015) Environmental Consequences of Engineered Nanomaterials: An Awareness Campaign to Promote Safe Nanotechnology and Dispel Related Misconceptions. Environmental Consequences of Engineered Nanomaterials: An Awareness Campaign to Promote Safe Nanotechnology and Dispel Related Misconceptions.
Andrzej Huczko, Magdalena Kurcz & Magdalena PopławskaAndrzej Huczko. 2014. Nanorurki węglowe. Otrzymywanie, charakterystyka, zastosowania. Nanorurki węglowe. Otrzymywanie, charakterystyka, zastosowania.
Qaisar Mahmood(TI)(TI), Ather Farooq Khan & Afsar Khan. 2014. The Role of Colloidal Systems in Environmental Protection. The Role of Colloidal Systems in Environmental Protection
635
677
.
Fadri Gottschalk, TianYin Sun & Bernd Nowack. (2013) Environmental concentrations of engineered nanomaterials: Review of modeling and analytical studies. Environmental Pollution 181, pages 287-300.
Crossref
Benjamin J. Place, Markus Kleber & Jennifer A. Field. (2013) Extraction of fullerenes from environmental matrices as affected by solvent characteristics and analyte concentration. Journal of Separation Science 36:5, pages 953-958.
Crossref
Sanju Gupta & Avadh Saxena. (2012) Negative Gaussian curvature distribution in physical and biophysical systems—Curved nanocarbons and ion-channel membrane proteins. Journal of Applied Physics 112:11.
Crossref
Premysl Landa, Radomira Vankova, Jana Andrlova, Jan Hodek, Petr Marsik, Helena Storchova, Jason C. White & Tomas Vanek. (2012) Nanoparticle-specific changes in Arabidopsis thaliana gene expression after exposure to ZnO, TiO2, and fullerene soot. Journal of Hazardous Materials 241-242, pages 55-62.
Crossref
Jun Zhang, Luann Becker, Handong Liang, Yang Luo, Wei Xu & Hongcui Wang. (2012) HPLC separation of higher fullerenes in the synthetical “graphite smokes” soot. Chinese Journal of Geochemistry 31:3, pages 303-308.
Crossref
Harold Linnartz & Wim Ubachs. (2012)
The electronic spectrum of the
C
s
-C
11
H
3
radical
. The Journal of Chemical Physics 136:5, pages 054307.
Crossref
Tandabany C. Dinadayalane & Jerzy Leszczynski. 2012. Handbook of Computational Chemistry. Handbook of Computational Chemistry
793
867
.
Sanju Gupta & Avadh Saxena. (2011) Geometrical interpretation and curvature distribution in nanocarbons. Journal of Applied Physics 109:7.
Crossref
Wenjie Shen, Yongge Sun, Yangting Lin, Dehan Liu & Pingxia Chai. (2011) Evidence for wildfire in the Meishan section and implications for Permian–Triassic events. Geochimica et Cosmochimica Acta 75:7, pages 1992-2006.
Crossref
Susana E. Jorge-Villar & Howell G. M. Edwards. (2010) Raman spectroscopy of volcanic lavas and inclusions of relevance to astrobiological exploration. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 368:1922, pages 3127-3135.
Crossref
Elizabeth A. Carter, Michael D. Hargreaves, Terence P. Kee, Matthew A. Pasek & Howell G. M. Edwards. (2010) A Raman spectroscopic study of a fulgurite. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 368:1922, pages 3087-3097.
Crossref
Bo Pan & Baoshan Xing. 2010.
137
181
.
Sanju Gupta & Avadh Saxena. (2009) Nanocarbon materials: probing the curvature and topology effects using phonon spectra. Journal of Raman Spectroscopy 40:9, pages 1127-1137.
Crossref
Thilo Hofmann & Frank von der Kammer. (2009) Estimating the relevance of engineered carbonaceous nanoparticle facilitated transport of hydrophobic organic contaminants in porous media. Environmental Pollution 157:4, pages 1117-1126.
Crossref
Helena Dodziuk, Takuma Hara, Takashi Konno, Yosuke Nakamura, Jun Nishimura, Olga V. Boltalina, Alexey A. Popov, Steven H. Strauss, Toni Shiroka, Renata Bilewicz, Kazimierz Chmurski, Tommi Vuorinen, Sho‐Ichi Iwamatsu, Mark S. Meier, Rossimiriam Pereira de Freitas & Jean‐François Nierengarten. 2009. Strained Hydrocarbons. Strained Hydrocarbons
205
333
.
P. Oleszczuk. (2009) Advantages and risk related with carbon nanomaterials (CNMs) application for water remediation. Mini review. Annales UMCS, Chemistry 64:-1.
Crossref
Matthew R. Hammond & Richard N. Zare. (2008) Identifying the source of a strong fullerene envelope arising from laser desorption mass spectrometric analysis of meteoritic insoluble organic matter. Geochimica et Cosmochimica Acta 72:22, pages 5521-5529.
Crossref
Kieran J. MacKenzie, Chee Howe See, Oscar M. Dunens & Andrew T. Harris. (2008) Do single-walled carbon nanotubes occur naturally?. Nature Nanotechnology 3:6, pages 310-310.
Crossref
Bernd Nowack & Thomas D. Bucheli. (2007) Occurrence, behavior and effects of nanoparticles in the environment. Environmental Pollution 150:1, pages 5-22.
Crossref
Sanju Gupta & A. Saxena. (2011) Novel Nanocarbons: Global Topology and Curvature Perspectives. MRS Proceedings 960.
Crossref
Alessandra Rotundi, Frans J. M. Rietmeijer & Janet Borg. 2006. Natural Fullerenes and Related Structures of Elemental Carbon. Natural Fullerenes and Related Structures of Elemental Carbon
71
94
.
P. H. Fang, Fawen Chen, Ruzhao Tao, Binghou Ji, Chongjun Mu, Ergang Chen & Yuanjian He. 2006. Natural Fullerenes and Related Structures of Elemental Carbon. Natural Fullerenes and Related Structures of Elemental Carbon
257
266
.
Jan Jehlička & Otakar Frank. 2006. Natural Fullerenes and Related Structures of Elemental Carbon. Natural Fullerenes and Related Structures of Elemental Carbon
213
240
.
Jan Jehlička, Ota Frank, Věra Hamplová, Zdeňka Pokorná, Libor Juha, Zbyněk Boháček & Zuzana Weishauptová. (2005) Low extraction recovery of fullerene from carbonaceous geological materials spiked with C60. Carbon 43:9, pages 1909-1917.
Crossref
Ota Frank, Jan Jehlička, Věra Hamplová & Aleš Svatoš. (2005) The search for fullerenes in rocks from the Ries impact crater. Meteoritics & Planetary Science 40:2, pages 307-314.
Crossref
Vladimir A. Basiuk, Guadalupe Albarrán, Elena V. Basiuk & José-Manuel Saniger. (2005) Stability of interstellar fullerenes under high-dose γ-irradiation: new data. Advances in Space Research 36:2, pages 173-177.
Crossref
Franco Cataldo. 2005. Astrobiology: Future Perspectives. Astrobiology: Future Perspectives
97
126
.