Lawrence Wolf received his undergraduate degree in chemistry in 2006 at Drexel University and completed his Ph.D. in organic chemistry at the University of Illinois Urbana-Champaign under the guidance of Prof. Scott E. Denmark in 2012. He subsequently underwent postdoctoral research in the area of computational/theoretical chemistry at the Max-Planck-Institut fÃ¼r Kohlenforschung under the supervision of Prof. Walter Thiel in close collaboration with catalysis research groups. In the Fall of 2016 he joined the chemistry faculty at the University of Massachusetts Lowell as an assistant professor. His current research interests broadly include the development and application of modern reactivity models for elucidating reactivity/selectivity principles focused in catalysis as well as applying strategies in computer aided catalyst design.
2006: B.S. degree in Chemistry
Department of Applied Chemistry, Nagoya Institute of Technology, Japan
(Supervisor: Prof. Takeshi Toru)
2013: PhD degree in Chemistry
Department of Frontier Materials, Nagoya Institute of Technology, Japan
(Supervisor: Prof. Shuichi Nakamura)
2013: Postdoctoral fellow
Max-Planck-Institut fÃ¼r Kohlenforschung, Germany
(Supervisor: Prof. Benjamin List)
2014- Assistant Professor
Department of Material Chemistry, Ryukoku University, Japan
(Supervisor: Prof. Kingo Uchida)
Awards 2011: The Prize of 5th Wakashachi Incentive Award, Aichi Prefectural Government
2012: The Poster Award of 2nd CSJ Chemistry Fest, Chemical Society of Japan
2012: Best Presentation Award, 92th Annual Meeting of CSJ, Chemical Society of Japan
2013: Postdoctoral fellowship, The Naito Fundation
2015: Kaneka Award,in Synthetic Organic Chemistry, The Society of Synthetic Organic Chemistry, Japan
Current research topics Catalytic reaction, Alternative reaction methodology, Greener synthesis
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Maria Manuel Marques was born in Lisbon, Portugal in 1972. She studied chemistry at the new University of Lisbon, from where she also received her Ph.D. in organic chemistry in 2001 under the supervision of Prof. Dr. S. Prabhakar. From 2001 to 2003 she joined the group of Prof. Dr. J. Mulzer at the Institute of Organic Chemistry at the University of Vienna, as a postdoctoral research fellow. In 2003, she returned to the Faculty of Science and Technology, New University of Lisbon (Requimte) as a research fellow. Since 2004 she has been involved in organic chemistry teaching at the Chemistry Department, and in 2016 she obtained her Habilitation in Chemistry. Her research encompasses the development of new synthetic and sustainable methodologies involving metal-catalyzed reactions towards bioactive compounds, in particular heterocyclic molecules, and the development of new synthetic strategies to prepare glycopeptides in order to understand biological systems.
Dr. Carlos Palo-Nieto obtained his degree in Pharmacy (2008) and his PhD in the Department of Organic and Pharmaceutical Chemistry (2013) at the University of Sevilla (Spain). During his PhD, he worked on the stereoselective synthesis of new compounds with biological interest from carbohydrate starting materials and also performed the synthesis of small molecules in search of anticancer and antimicrobial activity. During his PhD, he spent six months in Stockholm University working on asymmetric catalysis. Afterwards, he spent a year at Mid Sweden University (Sundsvall) as a post-doctoral fellow working in heterogeneous catalysis. After a short time working in pharmaceutical industry, in 2015, he joined the group of M. Carmen Galan at the University of Bristol (England) as Newton International Postdoctoral Fellow where his research focuses on the application of catalysis to oligosaccharide synthesis
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Green chemistry is the branch of chemistry which is characterized with the reduction of the negative impact of the chemical substances on the environment and human life. It is obvious that the majority of chemical substances cause harm to the human health and they are often connected with pollution, so chemical industry has been always associated with pollution and contamination of the environment. The main idea of green chemistry is to reduce pollution and negative impact of chemicals on the environment. Moreover, the substances are even expected to do more good than harm, curing illnesses and helping people in their activity. The concepts of green chemistry appeared at the beginning of 1990s when people understood the importance of production of healthy and safe products. This branch of chemistry is applied for the improvement of other branches of chemistry – organic and non-organic chemistry, biochemistry and even physical chemistry.
Students will also learn some techniques commonly used in organic synthesis and the meaning of the terms theoretical yield, actual yield, and percent yield.
These notes are designed for the final stage of revision and require a thorough understanding of the topics. If this understanding is lacking then help from a professional and additional studies of text books,or , is suggested. Having been a successful for twelve years, my knowledge and experience of A-level Chemistry exams is reflected in the content of these notes.
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Grading: Each exam with count equally toward the final grade. Graduate students are also required to write a short paper (10 page limit) on a topic of their choice (with approval from me), related to bioorganic chemistry. In addition, they will present a short lecture (15 minutes) on their topic. You should choose a topic by Oct. 30.
Dr. Ivan Shuklov graduated from Higher Chemical College of the Russian Academy of Sciences in 2002 (Moscow, Russia). He received his Ph. D. with Prof. Dr. K. Krohn in 2006 from the University of Paderborn. Currently he is working at the Leibnitz-Institute of Catalysis (LIKAT, Rostock, Germany). Over the past decade his research concentrates on the various aspects of the chemistry of lactic acid and PLA associated with industrial production. His research interests cover asymmetric catalysis, and solvent effects in organic chemistry.
Dr. David M. Jenkins completed his PhD in inorganic chemistry under the direction of Prof. Jonas Peters at the California Institute of Technology in 2005. Upon completion of his dissertation, he accepted a prestigious Miller Fellowship for Basic Research at the University of California, Berkeley where he worked with Prof. Jeffrey Long on magnetic materials. In 2008, Dr. Jenkins began his independent career at the University of Tennessee and was promoted in 2014 to the position of Mamantov Associate Professor of Chemistry. During his time at the University of Tennessee, he has won numerous university research awards, plus an NSF CAREER grant. His current research focuses on synthetic chemistry of N-heterocycles ranging for homogeneous catalysis to materials development and surface modifications for analyte detection.