Gregor Rehse scite author profile

Palladium phosphanesulfonate [R(2)P(C(6)H(4)-o-SO(3))PdMeL] catalysts permit the copolymerization of an exceptional large number of functional olefins with ethylene. However, these catalysts usually have reduced activity. We here have conducted a systematic study on the influence of the phosphane substituent, R, on activity and molecular weight. Phosphanes with strong σ-donating character are shown to lead to the most active catalysts. Thus, the catalyst based on phosphane bis-tert-butyl-phosphanyl-benzenesulfonic acid (R=tBu) exhibits unprecedented high activity, rapidly polymerizing ethylene at room temperature to yield a linear polymer of high molecular weight (M(w)=116,000 g mol(-1)). The influence of the R group on the catalyst ability to incorporate methyl acrylate is also investigated.

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Validation of the Living Kidney Donor Profile Index in a European cohort and comparison of long-term outcomes with US results

Rehse

Halleck

Khadzhynov

et al. 2018

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Sp727very High Kdpi Kidneys in Elderly Transplant Recipients - No Need to Discard

Halleck¹,

Khadzhynov²,

Rehse³

et al. 2017

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Sp725validation of the Risk Index for Living Donor Kidney Transplantation (Lkdpi) in a European Cohort

Staeck

Rehse

Khadzhynov

et al. 2017

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Langzeit-Outcome nach Nierenlebendspende: Einfluss von Spenderfaktoren und Living Kidney Donor Profile Index

Rehse¹

2019

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Gregor Rehse

Structure–Activity Relationship of Palladium Phosphanesulfonates: Toward Highly Active Palladium‐Based Polymerization Catalysts

Validation of the Living Kidney Donor Profile Index in a European cohort and comparison of long-term outcomes with US results

Sp727very High Kdpi Kidneys in Elderly Transplant Recipients - No Need to Discard

Sp725validation of the Risk Index for Living Donor Kidney Transplantation (Lkdpi) in a European Cohort

Langzeit-Outcome nach Nierenlebendspende: Einfluss von Spenderfaktoren und Living Kidney Donor Profile Index

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