S.K. Sundaram

Education

• 高管认证:战略与创新斯隆管理学院, Massachusetts Institute of Technology, 2007
• 博士学位:陶瓷工程/材料科学与工程佐治亚理工学院, Atlanta, USA, 1994
• MTech:印度理工学院材料科学与工程，印度，1986
• 认证:Leadership SUNY Executive Leadership Academy, 2015

Biography

Dr. S. K. Sundaram是稻盛工程学院的材料科学与工程教授(特聘教授), 2011年任命皇冠体育app纽约州立陶瓷学院. The Inamori Professorships were created in 2005, when the Kyocera Corporation, 世界上最大的先进陶瓷材料制造商之一, 向学校捐赠了1000万美元以支持工程学院. 该礼物授予京瓷公司创始人兼董事长稻盛和夫. The University, in consultation with the Kyocera Corporation, 同意用1000万美元捐赠基金产生的收入来支持稻盛教授, all recognized experts in their fields. Prior to joining Alfred University, Dr. Sundaram在12月31日之前一直是太平洋西北国家实验室(PNNL)的材料科学家, 2010.  1994年作为博士后加入PNNL, 1996年成为高级研究科学家.  He became Chief Materials Scientist in January 2002.  总的来说，他有20多年的科学研究和领导经验.  On technical front, 他一直致力于先进的转化材料科学和工程的几个方面.  Dr. Sundaram的研究重点是在可见光到太赫兹(THz)频率的电磁波谱中光子与物质的相互作用. 他的主要兴趣和贡献领域是:毫米波/太赫兹波科学与技术, ultrafast materials science and engineering, and multiscale (nano- to macro-) materials processing. Dr. 桑达拉姆大学是国际公认的跨学科研究机构.  He has managed small – large tasks and projects. 他在组建高功能的多学科研究团队以及与同行和同事合作方面有着长期的经验.  He is very active in several scientific societies.  He has published over 150 scientific reports, publications and technical reports, made over 170 scientific/technical presentations, edited/contributed to 15 books, taught/mentored/supported over 100 students, 并组织或协办了几次关于材料科学高级主题的国内和国际研讨会.

Research, Publications, & Presentations

Research & Publications

• B. M. Clark, S. K. Sundaram, and S. T. Misture, 铈取代锆石(CaZrTi2O7)的多态转变,” Scientific Reports, 7, 5920 (2017). doi:10.1038/s41598-017-06407-5
• D. W. Steere, P. Tumurugoti, and S. K. Sundaram, 飞秒脉冲激光辐照钇铝石榴石陶瓷的超快后处理,” Opt. Eng., 56(3), 037108 (2017), doi: 10.1117/1.OE.56.3.037108.
• B. M. Clark, P. Tumurugoti, S. K. Sundaram, J. W. Amoroso, J. C. Marra, V. Shutthanandan, and M. 唐，“多相陶瓷废物中荷兰石的辐射损伤”，J. Nuclear Materials, 494, 61-66 (2017).
• D. W. Steere, B. M. Clark, R. Gaume, and S. K. Sundaram，“钇铝石榴石陶瓷的结构-太赫兹性质关系”，应用程序. Phys. A, 123, 515 (2017).
• B. M. Clark and S. K. Sundaram, 太赫兹时域光谱用于陶瓷核废料形态的原位监测,” Journal of Infrared, Millimeter, and Terahertz Waves, DOI: 10.1007/s10762-016-0289-2
• M. Tang, P. Tumurugoti, B. Clark, S. K. Sundaram, J. Amoroso, J. Marra, C. Sun, P. Lu, Y. Wang, and Y-B. 重离子辐照对合成荷兰石型材料的影响[j].0Cs0.3A2.3Ti5.7O16 (A = Cr, Fe, Al),” J. Solid State Chem., 239, 58-63 (2016).
• P. Tumurugoti, S. K. Sundaram, S. T. Misture, J. C. Marra, and J. “陶瓷废料在熔融加工过程中的结晶行为”，J. Nucl. Materials 473, 167-177 (2016).
• Y. Gong, R. Dongol, C. Yatongchai, A. W. Wren, S. K. Sundaram, and N. P. Mellott, 回收废琥珀玻璃和猪骨制成快烧高强度玻璃泡沫,” Journal of Cleaner Production 112(5), 4534-4539 (2016).
• K. C. Phillips, H. H. Gandhi, E. Mazur, and S. K. “材料的超快激光加工:综述”，Adv. Optics and Photonics 7(4), 684-711 (2015).
• R. Dongol, K. Chambliss, S. K. Sundaram, and M. Diwan, 用于中微子探测的光电倍增管玻璃的机械性能,” International Journal of Applied Glass Science 7(1), 94-103 (2015). doi:10.1111/ijag.12140
• P. Tumurugoti, B. M. Clark, and S. K. Sundaram, 利用飞秒脉冲激光对陶瓷废料进行微结构修饰,” Optical Materials Express, 5(12), 2941-2950 (2015).
• C. Yatongchai, A. W. Wren, and S. K. Sundaram, 羟基磷灰石-玻璃复合材料的太赫兹时域光谱表征,” International Journal of Infrared and Millimeter Waves 36(1), 81-93 (2015).
• K. Chambliss, S. K. Sundaram, N. Simos, and M. V. Diwan, 未来中微子探测器在静水压下的光电倍增管失效," Journal of Instrumentation, 9 [10] (2014). [http://dx.doi.org/10.1088/1748-0221/9/10/T10002]
• B. M. Clark, S. K. Sundaram, K. S. Brinkman, K. M. Fox, and J. W. Amoroso, 火花等离子烧结制备先进陶瓷废料的研究,环境与能源技术材料科学进展3, Edited by Tatsuki Ohji, Josef Matyas, Navin Jose Manjooran, Gary Pickrell and Andrei Jitianu, pp.127-135, The American Ceramic Society, John Wiley & Sons, Inc., 2014.
• P. Tumurugoti, S. K. Sundaram, K. S. Brinkman, and K. M. Fox, “Melt-Processed Multiphasic Ceramic Waste Forms,环境与能源技术材料科学进展3, Edited by Tatsuki Ohji, Josef Matyas, Navin Jose Manjooran, Gary Pickrell and Andrei Jitianu, pp. 205-212, The American Ceramic Society, John Wiley & Sons, Inc., 2014.
• B. M. Clark, P. Tumurugoti, S. K. Sundaram, J. W. Amoroso, J. C. Marra, and K. S. Brinkman, 熔体处理和火花等离子烧结陶瓷废料的微观结构,冶金与材料学报E辑:能源系统材料, 1E, 341348 (2014).
• R. Gaume, D. Steere, and S. K. Sundaram, 非化学计量学对Y3Al5O12光学陶瓷太赫兹吸收的影响," Journal of Materials Research, 760 (2014). [http://dx.doi.org/10.1557/jmr.2014.236]
• M. Redjdal, K. Hadidi, R. A. Ristau, and S. K. Sundaram, “通过均匀熔融状态工艺生产纳米结构材料”,《皇冠体育app》第90-93页, NSTI-Nanotech 2014, Vol. 1(2014年NSTI纳米技术会议和博览会论文集，NSTI- nanotech 2014，华盛顿特区.). Nano Science and Technology Institute. [http://www.nsti.org/procs/Nanotech2014v1]
• Satya R. Ganti, S. K. Sundaram, John S. McCloy, 太赫兹环境下硫化锌的频率相关光学和介电特性,” Infrared Physics and Technology, 65, 67-71 (2014). http://dx.doi.org/10.1016/j.infrared.2014.03.013 ?
• S. K. Sundaram, P. Colombo, and Y. Katoh, “Selected Emerging Opportunities for Ceramics in Energy, Environment, and Transportation,” International Journal of Applied Ceramic Technology, 10(5), 731-739 (2013).
• Jiajie Ling, Mary Bishai, Milind Diwan, Jeffrey Dolph, Steve Kettell, Kenneth Sexton, Rahul Sharma, Nikolaos Simos, James Stewart, Hidekazu Tanaka, Brett Viren, Douglas Arnold, Philip Tabor, Stephen Turner, Terry Benson, Daniel Wahl, Christopher Wendt, Alan Hahn, Marc Kaducak, Paul Mantsch, S. K. Sundaram, 光电倍增管水下组件的内爆连锁反应缓解,” Nuclear Instruments and Methods in Physics Research A, 729, 491-499 (2013).
• S. K. Sundaram, C. A. Sacksteder, T. J. Weber, B. J. Riley, R. S. Addleman, B. J. Harrer, and J. W. Peterman, 傅里叶变换红外光谱快速筛选和活细胞监测:纳米毒理学应用,” Nanomedicine 8(1), 145–156 (2013).
• B. J. Riley, B. R. Johnson, H. T. Schaef, and S. K. 孙达兰，“多尺度碲结构的升华-凝结”，J. Phys. Chem. C 117, 10128-10134 (2013).
• Chung CW, J Chun, W Um, SK Sundaram, and JH Westsik, Jr. 2013. 《新皇冠体育最新版本》." Cement and Concrete Research 46:14-22. doi:10.1016/j.cemconres.2013.01.003
• C.-W. Chung, W. Um, M. M. Valenta, S. K. Sundaram, J. Chun, K. E. Parker, M. L. Kimura, and J. H. Westsik, Jr., 玻璃化过程中二次废物固化用铸石胶凝废物形态的特性," J. Nuclear Materials, 420 [1-3] 164-74 (2012). [http://dx.doi.org/10.1016/j.jnucmat.2011.09.021]
• B. J. Riley, B. T. Rieck, J. S. McCloy, J. V. Crum, S. K. Sundaram, and J. D. Vienna, 碲酸盐玻璃作为混合碱-氯化物废物流的废物形式:候选材料的选择和初步测试," J. Nuclear Materials, 424 [1-3] 29-37 (2012). [http://dx.doi.org/10.1016/j.jnucmat.2012.01.024]
• C-W. Chung, W. Um, M. M. Valenta, S. K. Sundaram, J. Chun, K. E. Parker, M. L. Kimura, and J. H. Westsik, Jr., 玻璃化过程中二次废物固化用铸石胶凝废物形态的特性," J. Nuclear Materials, 420 [1-3] 164-74 (2012).[http://dx.doi.org/10.1016/j.jnucmat.2011.09.021]
• P. P. Woslov and S. K. Sundaram, 微沟槽核石墨的高温二维毫米波辐射测量,” in Proceedings of MRS Fall Meeting, 2012.
• S. K. Sundaram, C. H. Henager Jr, D. J. Edwards, A. L. Schemer-Kohrn, M. Bliss, B. R. Riley, M. B. Toloczko, and K. G. Lynn, "Hierarchical Microstructures in CZT,物理研究中的核仪器和方法A部分:加速器, Spectrometers, Detectors and Associated Equipment, 652 [1] 174–177 (2011).[http://dx.doi.org/10.1016/j.nima.2010.09.128]
• S. K. Sundaram, J. S McCloy, B. J. Riley, M. K. Murphy, H. A. Qiao, C. F. Windisch, Jr, E. D. Walter, J. V. Crum, R. Golovchak, and O. Shpotyuk. 2012. 伽马辐射对二元As-S玻璃的物理、光学和结构特性的影响.美国陶瓷学会学报95(3):1048-1055 (2011). doi:10.1111/j.1551-2916.2011.04938.x
• P. Lucas, E. A. King, R. G. Erdmann, B. J. Riley, S. K. Sundaram, and J. S. McCloy，“As-S玻璃的热和伽马射线诱导弛豫:模型和实验”，J. Physics D: Applied Physics, 44 [39] 395402/1-/5 (2011).[http://dx.doi.org/10.1088/0022-3727/44/39/395402]
• J. S. McCloy, J. V. Crum, S. K. Sundaram, R. Slaugh, and P. P. Woskov, 高温毫米波辐射和干涉测量在煤气炉中应用的炉渣-耐火材料相互作用," J. 红外、毫米波和太赫兹波，32 [11]1337-49 (2011).[http://dx.doi.org/10.1007/s10762-011-9823-4]
• S. K. Sundaram, C. H. Henager Jr, D. J. Edwards, A. L. Schemer-Kohrn, M. Bliss, and B. R. Riley, 垂直梯度冻结炉中CZT生长尖端的电子后向散射衍射分析," Journal of Crystal Growth, in press (available online) (2011) [http://dx.doi.org/10.1016/j.jcrysgro.2011.02.008].
• R. Golovchak, O. Shpotyuk, A. Kozdras, B. J. Riley, S. K. Sundaram, and J. S. McCloy, 辐射对二元As-S和As-Se玻璃物理老化的影响," Journal of Thermal Analysis and Calorimetry, 103 [1] 213-8 (2011) [http://dx.doi.org/10.1007/s10973-010-0876-8].
• J. S. McCloy, S. K. Sundaram, J. Matyas, and P. P. Woskov, 用双通道毫米波辐射法同时测量模拟月球风化层的温度和发射率." Review of Scientific Instruments 82(5), 054703 (2011). doi:10.1063/1.3590016
• J. S. Chun, J. S. McCloy, J. V. Crum, and S. K. Sundaram, "Millimeter Wave Rheometry: Theory and Experiment." Rheologica Acta 50(2), 125-130 (2011). doi:10.1007/s00397-010-0522-1.

Awards/Honors

• D. T. Rankin Award for exemplary service to the Nuclear & 美国陶瓷学会环境技术部(NETD)， 2015
• 联邦实验室联盟技术转让奖，“IncubATR -活细胞监测仪”，2011年
• R&D100 Award for “IncubATR – live-cell monitor”, 2010
• R&D 100 Award for “Multiscale Materials Processing”, 2008
• 因“在Cd-Ge-As体系中发现新的亚稳晶相”获“杰出表现奖”, December 2007.
• Roland B. Snow Award, 在陶艺综合技术竞赛“发现Cd-Ge-As玻璃中的亚稳晶相”中获第一名,” Team: BR Johnson, BJ Riley, JV Crum, SK Sundaram, Chuck Henager, Jr., DJ Edwards, and AL Schemer-Kohrn, MS&T2007, Detroit, MI, 2007.
• Inducted into “Order of Engineer”, 2006
• R&D 100 Award for “Milliwave Thermal Analyzer”, 2006
• 作为西门子西屋电气竞赛材料科学竞赛评委的杰出服务，获得西门子基金会奖, 2005
• 杰出表现奖(OPA) - ETD颁发给PJM项目的团队奖，2004年
• 2004年，NSD颁发声光光栅NRO项目杰出表现奖
• 应美国国家工程院和亚历山大·冯·洪堡基金会邀请参加德美工程前沿会议, Ludwigsburg, Germany, April-May, 2003
• 杰出导师，能源部科学办公室，奖学金项目，2002年
• 2001年、2002年、2005年分别获得巴特尔社区精神奖提名
• 在“拓展你的视野”项目中获得“杰出表现奖”, 2002
• 实验室主任菲茨纳-埃伯哈特奖，以表彰他对科学和工程教育的杰出贡献, 2001
• R&D 100 Award for “Milliwave Viscometer”, 2001
• 被美国国家工程院提名并邀请参加“工程前沿”项目, March 2001
• Best Paper Award for Nuclear & Environmental Division of the American Ceramic Society, 2001
• 2001年5月，代表ETD参加VPP指导委员会，帮助PNNL获得STAR地位
• Won Battelle’s Science & Technology Challenges Award, April 2001
• 在“为PNNL争取VPP之星认可”活动中，团队合作获“杰出表现奖”, September, 2001
• Awarded “Outstanding Performance Award” for a publication in J. Non-Cryst. Solids, 2001
• 获颁“杰出表现奖”，表扬他对演讲人局的贡献, December, 2000
• Selected by PNNL for Community Spot Light, September, 2000
• 阿根廷树脂玻璃化测试获“优秀团队绩效奖”(组长), August, 2000
• 被认定为“商业化协议的关键贡献者”,” Pacific Northwest National Laboratory, October 1999

Affiliations & Memberships

• Elected Senior Member/Life Member, 国际光学工程学会(SPIE) (2011/2016),
• 美国科学促进会院士(2006年);
• 美国陶瓷学会终身会员(2006/2016);
• Elected Fellow, Society of Glass Technology (2009),
• Life Member, Optical Society of America (2016),
• 终身会员:印度陶瓷学会，印度材料研究学会，
• Member, New York Academy of Sciences (invitational), National Institute of Ceramic Engineers, Ceramics Educational Council, Materials Research Society, American Physical Society, and American Society for Engineering Education,
• 荣誉社团:Keramos、Sigma Xi、工程师勋章(2006);

Professional Experience

Chair, 机械和可再生能源项目                                                     2015年至今

稻盛和夫工程学院包括私人资助的机械项目, electrical and renewable energy engineering. 这些专业提供机械和可再生能源工程本科专业和电气和机械工程硕士学位. 这些项目的注册人数稳步增长，接近200人.

• As the Chair, nine faculty and staff directly report to me. 我负责监督大约75万美元的预算，审查教职员工、晋升和终身教职&T)学生、员工和教师的流程、策略和支持.
• 促进工程项目的私人和公共方面以及大学内其他学院之间的合作，以发展赞助研究.
• 积极领导可再生能源方面的校园范围内的可持续发展和绿色项目.

• P. P. Woskov, S. K. Sundaram, D. Cohn, J. E. Surma, and D. A. Lamar，“定向能熔体”，美国专利:8,525,085,2013年9月3日.
• W. E. Daniel, P. P. Woskov, and S. K. Sundaram，“毫波熔炼机监测系统”，美国专利:7,997,121,2011年8月16日.
• S. K. Sundaram, B. J. Riley, T. J. Weber, C. A. Sacksteder, and R. S. Addleman, “System, Device, and Methods for Real-Time Screening of Live Cells, Biomarkers, and Chemical Signatures,” US Patent: 7,956,328, June 7, 2011.
• B. R. Johnson, M. J. Schweiger, B. D. MacIssac, and S. K. Sundaram，“硫系玻璃纳米结构”，美国专利:7,211,296,2007年5月1日.
• S. K. Sundaram, K. K. Meher and P. C. Kapur，“以稻壳灰为基础的家用滤水器”，印度专利号. 187147, 16 February 2002.
• J. Matyas and S. K. Sundaram, 腐蚀环境中耐火材料的保护方法和成分,” US Patent Application: 20110033613 A1, February 10, 2011.