Standout Papers
- A global model of natural volatile organic compound emissions (1995)
- Isoprene and monoterpene emission rate variability: Model evaluations and sensitivity analyses (1993)
- Emissions of volatile organic compounds from vegetation and the implications for atmospheric chemistry (1992)
- Biocontrol ofBacillus subtilisagainst Infection of Arabidopsis Roots byPseudomonas syringaeIs Facilitated by Biofilm Formation and Surfactin Production (2004)
- Isoprene and monoterpene emission rate variability: Observations with eucalyptus and emission rate algorithm development (1991)
Immediate Impact
35 by Nobel laureates 43 from Science/Nature 137 standout
Citing Papers
Temperature-dependent emissions dominate aerosol and ozone formation in Los Angeles
2024 StandoutScience
Catalytic Asymmetric Hydroalkoxylation of C–C Multiple Bonds
2021 StandoutNobel
Works of Ray Fall being referenced
A global model of natural volatile organic compound emissions
1995 Standout
Isoprene and monoterpene emission rate variability: Model evaluations and sensitivity analyses
1993 Standout
Author Peers
| Author | Last Decade | Papers | Cites | ||||
|---|---|---|---|---|---|---|---|
| Ray Fall | 3518 | 6339 | 9181 | 4769 | 156 | 17.1k | |
| P. C. Harley | 1520 | 7439 | 11143 | 9164 | 91 | 16.8k | |
| Armin Hansel | 1137 | 2189 | 6078 | 2751 | 179 | 11.3k | |
| Francesco Loreto | 5301 | 14193 | 4936 | 6226 | 264 | 19.8k | |
| Manuel Lerdau | 1344 | 4425 | 4933 | 3353 | 113 | 10.1k | |
| Thomas Karl | 461 | 2357 | 10103 | 5796 | 140 | 12.7k | |
| J. Kesselmeier | 806 | 3057 | 4092 | 2568 | 146 | 7.1k | |
| Magda Claeys | 3159 | 2039 | 7649 | 1977 | 263 | 14.2k | |
| Thomas D. Sharkey | 10160 | 19989 | 5335 | 10879 | 247 | 27.4k | |
| P. Ciccioli | 543 | 2112 | 3248 | 1640 | 120 | 5.6k | |
| Donald R. Ort | 9057 | 15412 | 3026 | 5429 | 204 | 22.7k |
All Works
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