44. Observation of elevated air pollutant concentrations in a residential neighborhood of Los Angeles California using a mobile platform, 使用移动平台观察加利福尼亚州洛杉矶的居民区的空气污染物浓度升高Atmospheric Environment Volume 51, May 2012, Pages 311–319

45. Variability of aerosol, gaseous pollutants and meteorological characteristics associated with continental, urban and marine air masses at the SW Atlantic coast of Iberia, 在西南大西洋沿岸伊比利亚大陆、城市和海洋气团气溶胶变异、气态污染物和气象特征Atmos. Chem. Phys. Discuss., 11, 31585–31642, 2011

46. Effects of second order processes in aerosol monitoring. Journal of Aerosol Science Volume 32, Issue 11, November 2001, Pages 1235–1247

47. Spatial and temporal variability of particulate polycyclic aromatic hydrocarbons in Mexico City. 颗粒多环芳烃在墨西哥城的时空变异Atmos. Chem. Phys., 8, 3093–3105, 2008

48. Characterization of airborne particles during production of carbonaceous nanomaterials. 表征碳纳米材料的生产过程中空气中的颗粒。Environ. Sci. Technol., 2008, 42 (12), pp 4600–4606. DOI: 10.1021/es703043c

49. Particulate polycyclic aromatic hydrocarbon spatial variability and aging in Mexico City. 微粒多环芳香碳氢化合物的空间变异性和老化在墨西哥城Atmos. Chem. Phys. Discuss., 7, 15693–15721, 2007

50. Evolution of anthropogenic aerosols in the coastal town of Salina Cruz, Mexico: Part I particle dynamics and land–sea interactions. 在萨利纳克鲁斯，墨西哥的海滨小城：第一部分粒子动力学和海陆相互作用的人为气溶胶的演化。Science of the Total Environment 367 (2006) 288–301

51. Quality assurance final report for the Fresno Supersite. USA EPA

52. Electron spectroscopy on nanosized particles in a carrier gas. SWISS FEDERAL INSTITUTE OF TECHNOLOGY ZURICH

53. Evolution of anthropogenic aerosols in the coastal town of Salina Cruz, Mexico: Part II particulate phase chemistry. 在萨利纳克鲁斯，墨西哥沿海城市的人为气溶胶：第二部分颗粒相化学演化。 Science of the Total Environment 372 (2006) 287–298

54. Emissions from the incineration of electronics industry waste. 从电子工业废物焚烧的排放USA EPA. 0-7803-7743-51031  02003 IEEE

55. Testing of Combined DPF+SCR Systems for HD-retrofitting –VERTdePN. SAE 2009-01-0284

56. An overview of the MILAGRO 2006 Campaign: Mexico City emissions and their transport and transformation. 墨西哥城排放和他们的运输和转化Atmos. Chem. Phys., 10, 8697–8760, 2010

57. Spatial and temporal variations and mobile source emissions of polycyclic aromatic hydrocarbons in Quito, Ecuador. 时空变化和移动源排放的多环芳烃在厄瓜多尔基多Environ Pollut. 2009 February; 157(2): 528–536.doi: 10.1016/j.envpol.2008.09.041

58. Measuring self-pollution in school buses using a tracer gas technique. 测量用示踪气体技术在学校巴士的自身污染。 Atmospheric Environment 38 (2004) 3735–3746

59. Comparison of Continuous and Filter-Based Carbon Measurements at the Fresno Supersite. 在弗雷斯诺超级测比较连续和过滤器的碳测量。ISSN 1047-3289 J. Air & Waste Manage. Assoc. 56:474–491

60. Impact of biomass emissions on particle chemistry during the California Regional Particulate Air Quality Study. 在加利福尼亚州区域颗粒物空气质量研究的粒子化学生物排放的影响。International Journal of Mass Spectrometry. Volume 258, Issues 1–3, 1 December 2006, Pages 142–150

61. Comparison of spatial and temporal variations in p-PAH, BC, and p-PAH/BC ratio in six US counties. Atmospheric Environment. Volume 45, Issue 40, December 2011, Pages 7644–7652

62. Characterization of transient puff emissions from the burning of carpet waste charges in a rotary kiln combustor. Cement Industry Technical Conference, 2005. Conference Record

63. Coating of soot and (NH4)2SO4 particles by ozonolysis products of α-pinene. 烟尘和（NH4）2SO4颗粒涂层由α-蒎烯的臭氧化产品Journal of Aerosol Science. Volume 34, Issue 10, October 2003, Pages 1297–1321

64. Real-time characterization of ultrafine and accumulation mode particles in ambient combustion aerosols. 超细积聚模态粒子和周围燃烧气溶胶的实时特性。Journal of Aerosol Science. Volume 33, Issue 8, August 2002, Pages 1139–1154

65. Estimating the contributions of mobile sources of PAH to urban air using real-time PAH monitoring. 估算多环芳烃使用实时的多环芳香烃监测城市空气的流动污染源的贡献。Science of The Total Environment. Volume 279, Issues 1–3, 12 November 2001, Pages 1–19

66. High collection efficiency electrostatic precipitator for in vitro cell exposure to concentrated ambient particulate matter (PM). 高收集效率静电除尘器在体外细胞暴露于浓缩大气颗粒物（PM）。 Journal of Aerosol Science. Volume 39, Issue 4, April 2008, Pages 335–347

67. QUALITY ASSURANCE PROJECT PLAN FRESNO SUPERSITE - PHASE II,USA EPA

68. Aerosol Monitoring during Carbon Nanofiber Production: Mobile Direct-Reading Sampling. 碳纳米纤维的生产过程中的气溶胶监测：移动直接读采样Ann Occup Hyg (2010) 54 (5): 514-531.doi: 10.1093/annhyg/meq015

69. Characterisation of Woodsmoke from Distant Forest Fires. 从遥远的森林火灾木头燃烧烟尘特性 European Aerosol Conference 2007, Salzburg, Abstract T13A241

70. User guide for characterizing particulate matter: Evaluation of several real-time methods. http://ds.heavyoil.utah.edu/dspace/handle/123456789/10315

71. The Los Angeles International Airport as a source of ultrafine particles and other pollutants to nearby communities. 洛杉矶国际机场附近社区的超细颗粒物和其他污染物的来源。 Atmospheric Environment.Volume 42, Issue 13, April 2008, Pages 3143–3155

72. Nanoparticle and ultrafine particle events at the Fresno Supersite. 在弗雷斯诺超级测纳米粒子和超细粒子事件 ISSN 1047-3289 J. Air & Waste Manage. Assoc. 56:417– 430

73. Sources and transformations of particle-bound polycyclic aromatic hydrocarbons in Mexico City. 粒子结合的多环芳香烃在墨西哥城的来源和转换。Atmospheric Chemistry and Physics 6, 6 (2006) 1733-1745

74. On-Line Analysis of Gas-Phase Composition in the Combustion Chamber and Particle Emission Characteristics during Combustion of Wood and Waste in a Small Batch Reactor. 在线的气相成分在燃烧室和小批量反应堆中的木材和废物燃烧过程中的粒子发射特性分析。Environ. Sci. Technol., 2005, 39 (6), pp 1393–1402,DOI: 10.1021/es049493o

75. Carbon mass determinations during the AIDA soot aerosol campaign 1999. 1999年期间碳的质量决定的AIDA烟尘气溶胶Journal of Aerosol Science. Volume 34, Issue 10, October 2003, Pages 1399–1420

76. A SURVEY OF MONITORING INSTRUMENTS FOR MEASUREMENT OF AIRBORNE POLLUTANTS. 一个调查或测量空气中的污染物监测仪器Prepared For: California Energy Commission Public Interest Energy Research Program

77. The AIDA soot aerosol characterisation campaign 1999. AIDI烟尘气溶胶特性 Journal of Aerosol Science. Volume 34, Issue 10, October 2003, Pages 1277–1296

78. Variability of aerosol, gaseous pollutantsand meteorological characteristicsassociated with continental, urban andmarine air masses at the SW Atlanticcoast of Iberia. 变异的气雾剂，气体污染物砂气象特点，在西南大西洋沿岸伊比利亚大陆，城市和海洋气团Atmos. Chem. Phys. Discuss., 11, 31585–31642, 201 doi:10.5194/acpd-11-31585-2011

79. Technical note: Evaluation of standard ultraviolet absorption ozone monitors in a polluted urban environment. Atmos. Chem. Phys., 6, 3163–3180, 2006

80. Portable on-board system for measuring vehicle exhaust particulate emissions.  Patent number: 6435019

81. A Multi-City Investigation of the Effectiveness of RetrofitEmissions Controls in Reducing Exposures to ParticulateMatter in School Buses. 一个多市的调查，改造校车的风险降低颗粒物排放控制的有效性。Clean Air Task Force

82. Real-Time Measurements of Black Carbon Indoors and Outdoors: A Comparison of the Photoelectric Aerosol Sensor and the Aethalometer. 黑碳在室内和室外的实时测量：光电气溶胶传感器和Aethalometer的比较。 Aerosol Science and Technology, Volume 39, Issue 10, 2005

83. ACTIVATED CARBONS AS ADSORBENTS OF METHYL MERCAPTAN. Fuel Chemistry Division Preprints 2002, 47(2), 685

84. On the diurnal variability of particle properties related to light absorbing carbon in Mexico City. 对有关在墨西哥城的碳吸光的粒子性质的昼夜变异Atmospheric Chemistry and Physics 7, 10 (2007) 2517-2526

85. Innovative gas monitoring with spacial and temporal analysis. US Patent 7,523,638, 2009

86. Innovative gas monitoring with spacial and temporal analysis.US Patent 7,743,643, 2010

87. Characterization of particulate emissions: Size fractionation and chemical speciation. 颗粒物排放：大小分馏和化学形态的表征University of Utah, Institute for Clean and Secure Energy

88. Ultrafine particle emissions of residential oil burners: Influence of burner type, fuel, and additives. 住宅油燃烧超细颗粒排放型燃烧器，燃料和添加剂的影响。Combustion Science and Technology,Volume 174, Issue 9, 2002

89. Technical note: Evaluation of standard ultraviolet absorption ozone monitors in a polluted urban environment. 技术说明：标准紫外吸收臭氧监测，污染城市环境的评价。Atmospheric Chemistry and Physics 6, 10 (2006) 3163-3180

90. A probabilistic source attribution model for nanoparticles in air suspension applied on the main roads of Madrid and Mexico City. 在马德里，墨西哥城的主要道路概率源纳米粒子在空气悬架的归因模型应用Atmospheric Environment. Volume 42, Issue 17, June 2008, Pages 3937–3948

91. Time-series analysis of polycyclic aromatic hydrocarbons and vehicle exhaust in roadside air environment in Bangkok, Thailand. Procedia在曼谷的路边空气环境中多环芳烃和汽车尾气的时间序列分析Environmental Sciences. Volume 4, 2011, Pages 87–94

92. Atmospheric polycyclic aromatic hydrocarbons (PAHs) in Asia: A review from 1999 to 2004. 大气中多环芳香碳氢化合物（PAHs）在亚洲：从1999年至2004年的审查Environmental Pollution.Volume 142, Issue 3, August 2006, Pages 388–396

93. An Overview of the MILAGRO 2006 Campaign: Mexico City Emissions and Their Transport and Transformation. 米拉格罗2006年运动概述：墨西哥城排放及其运输和转化。Atmospheric Chemistry and Physics 10.18 (2010) : 8697-8760.

94. A comparison of temporal variation of particle-bound polycyclic aromatic hydrocarbons (pPAHs) concentration in different urban environments: Tokyo, Japan, and Bangkok, Thailand. 东京，日本和泰国曼谷：粒子绑定在不同的城市环境中多环芳烃（pPAHs）浓度时空变化的比较。Atmospheric Environment. Volume 36, Issue 12, April 2002, Pages 2027–2037

95. Modeling Spatial Patterns of Traffic-Related Air Pollutants in Complex Urban Terrain. 在复杂的城市地形建模交通相关的空气污染物的空间分布格局 Environ Health Perspect. 2011 June; 119(6): 852–859.

96. MONITOR PAHS IN COAL FUME BY REAL-TIME METHOD. 监控中多环芳烃的煤炭灰实时方法 《Modern Preventive Medicine》2007-02